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立 命 館 大 学
理 工 学 研 究 所 紀 要
第75号
MEMOIRSOF THE
INSTITUTEOF
SCIENCE & ENGINEERING
RITSUMEIKAN UNIVERSITYKUSATSU, SHIGA, JAPAN
NO. 75
2016
ISSN 0370-4254CODEN:RDRKAJ
理工学研究所紀要 第75号 2016 目次
<一般論文>1. ライフサイエンス系英語語彙指導への一考察―学生の科学英語語彙の認知度の現状と課題― ……………………………………………………………………… 山下 美朋・西澤 幹雄・山中 司 …… 1
2. グローバル化に対峙せざるをえない日本社会論に関する一考察:漱石の文明開化論の現代的解釈から ……………………………………………………………………………………………………… 山中 司 …… 17
3. Growth of Al4C3, Fe3C and SiC ultrafine Grains covered with Carbon layer
……………………………………………………………………………………… 墻内 千尋・齊藤 嘉夫 …… 31
4. 日本人大学生の英語エッセイに見られる語彙使用の特徴―誤用分析の観点から― ……………………………………………………………………………………………………… 山下 美朋 …… 43
5. 複合砥粒を用いた研磨に適した研磨パッドの表面構造 ……………………………………………………………………………………… 谷 泰弘・張 宇 …… 57
6. ドラム式電着ダイヤモンドワイヤ製造技術の開発 ……………………………………………………………………………………… 張 宇・谷 泰弘 …… 69
7. 進化的分類によるO-GIcNAc修飾タンパク質の解析 ……………………………………… 田中 純・藤井 正興・植田 竜太・小島 寿夫・伊藤 將弘 …… 81
大型研究装置成果報告書 ……………………………………………………………………………………………… 91
理工学研究所記事 ……………………………………………………………………………………………………… 157
- -
How much Academic English Vocabulary do they know? :
Towards the Development of Academic English Vocabulary Corpus
for Life Science Students
Miho Yamashita, Mikio Nishizawa, Tsukasa Yamanaka
Incorporating the idea of ESP or English for Specific Purposes, the compilation of English vocabulary
used in a particular field of study has been conducted in many universities. Many Universities have compiled
a list popularly used English vocabulary used in a particular field of study, often called ESP or English for
Specific Purposes. Students in the College of Life Sciences at Ritsumeikan University are required to read
research papers in their senior years; however, they find it rather difficult to read them in English. In order to
grasp their vocabulary knowledge, we administered the test of 40 English vocabulary words frequently found
in scientific papers to a range of students from freshman to master’s level. The results show a particular group
of vocabulary words students are less familiar with. The freshman students fail to catch the meaning of some
words in a scientific context, and even among the students in their senior years, show uncertainty to their
answers. These facts indicate the necessity to explicitly teach the vocabulary used in the scientific papers in the
early stages of their study. This paper also proposes the compilation of a Life Science vocabulary database
where scientific papers are accumulated, and the English terms or the expressions frequently used are stored.
Keywords; ESP, EGP, English Academic Vocabulary, Corpus
E-mail: [email protected]
College of Life Sciences, Ritsumeikan University
Kusatsu, Shiga, 525-8577, Japan
立 命 館 大 学 理 工 学 研 究 所 紀 要 第75号 2016年
Memoirs of the Institute of Science and Engineering, Ritsumeikan University, Kusatsu, Shiga, Japan. No. 75, 2016
-1-
Anderson & Freeboy, 1981; Huckin, Hyes & Coady, 1993
2
Nation, 2001
1)
ESP
ESP English
for Specific Purposes: , 2004 EGP English
for General Purposes:
ESP
, 2000 ESP
Coxhead, 2000; , 2005; , 2007; , 2007
Coxhead (2000)
570 Academic Word List: AWL2)
2005
2015
1 2
AWL 3
Nation, 2000 2007
English for Academic Purposes: EAP English for
General Academic Purposes: EGAP English for Specific Academic Purposes:
ESAP
Nation
EGAP
山下 美朋、西澤 幹雄、山中 司
-2-
ESP
2.1
1 2
3 2
PubMed3)
4) 40
3 5)
40
9. We identified several mutations in the p53 gene.
1 138 1 46 2 28
3 40 4 13 1 7 2 4 2015 11
30
2.2
, 11 5
1
F(4,133)=7.14,
p<.001, =.18
ライフサイエンス系英語語彙指導への一考察
-3-
1
1 46 21.5 4.64
2 28 26.1 3.61
3 40 24.6 5.54
4 13 28.0 5.69
11 25.2 3.52
138 24.2 5.18
2.3
2
80%
JACET80006) GSL7) General Service List AWL8) Academic
Word List 40 increase,
study, suggest, decrease, demonstrate, provide, reveal, affect, support, characterize, remain, define,
prevent, result, analyze, evaluate, depend, conclude, involve, take together Taken together
JACET8000 3,000
84 131
study 8
demonstrate 11 , support 11 , prevent 11 , evaluate 11 , depend 12 , involve
11 reveal 15 , 9 , take together
28 , 7 demonstrate
evaluate JACET8000 GSL 3
2.4
2.4.1
50% 10 show, examine, investigate, appear, exhibit,
describe, represent, estimate, underlie, make (have been made) 3
4
山下 美朋、西澤 幹雄、山中 司
-4-
2 9)
3
4
represent 1,000
10 underlie JACET8000 GSL 3,000
4
ライフサイエンス系英語語彙指導への一考察
-5-
75 16 27 32 114
10 19 85
investigate 13 underlie 16 make (have been made) (11 )
examine 10 investigagte 8 exhibit 7 describe
12 represent 11 estimate 9 have been made 16
3 50 2
3 5 allow, confirm, implicate,
express, identify, produce, generate, indicate, contribute, correlate 6
97 20 30 47 82
14 17 51 confirm
21 3 15 implicate 26 3 17 express (9 1 7 ) contribute
(10 ) correlate (39 : 15 10 14 ) allow (16 )
confirm (11 ) implicate 13 1 7 generate 12 9 indicate 10
correlate AWL 39 GSL 2,000 confirm 21
5
6
山下 美朋、西澤 幹雄、山中 司
-6-
1 (
) 2 ( ) 3 (
) (Nation, 1990, 2001)
Life Science Dictionary LSD
1 80
1,000 study, support, depend, involve
study
depend
3
demonstrate evaluate JACET8000 3,000 4,000
GSL 2000 3,000
Taken together LSD
28
14
appear, describe, represent, underlie, make (have been made)
underlie
JACET8000 GSL 1,000 appear
29
7 3 48 describe
ライフサイエンス系英語語彙指導への一考察
-7-
10 7 3 16 represent
LSD Taken together
18 20 11 3
18 underlie 36 18
39 have been made 16 2
14 3 28 describe, represent, have been made
describe 23 We describe the identification
of a novel gene. identification
LSD
Here, we describe [a new system, a novel function] [
] we
LSD describe
represent 33
(be something; be something to form)
33 TRAF2, an adaptor protein, may represent an important target molecule.
山下 美朋、西澤 幹雄、山中 司
-8-
TRAF2 have been
made [important, major, significant]advances
in
LSD have been made
16 underlie GSL 3,000
the mechanisms underling the underling mechanism
39 This
mechanism undelies the change of gene expression.
show, examine, investigate, exhibit, estimate
show 1,000
3
show 5 9
32 16 7 14
3 We have shown that this kinase is a key factor in the signal transduction pathway.
a key factor
LSD
Here we show that that the this, these
3 examine
investigate
examine 13 We
examined the action of this anti-cancer drug. ( )
examine the roles of , exam the effects of , examine the mechanism
of 10 9
ライフサイエンス系英語語彙指導への一考察
-9-
25 16 7 14 3
investigate JACET8000 4,000
9 9
32 3 8
research research
examine investigate
exhibit 4,000
indicate, show 1
12 3 13 12
exhibit 10 to clearly show a particular quality, emotion, or ability
a patient who is exhibiting classic symptoms of mental
illness 21 Seven
of 81 genes exhibited increased expression in the pancreas. 81 7
[ ] exhibit increased (enhanced, decreased,
reduced)
estimate 36
allow 29
22
13 confirm
7% 24
8 be implicate in
17 10 imply involve
indicate
1 7 2 6
contribute to 1 22 2 16
express, identify,
generate, produce
express
1 13
3 94
JACET8000 1,000
6 The transcription factor NF-kB is expressed in many types of
山下 美朋、西澤 幹雄、山中 司
-10-
cells. NF-kB identify
30
3 80 generate 19 We generated
mice with deletion of two cytokine genes.
15
produce 14
LSD
produce an increase / an enhancement / a surge / a substantial increase in
10 9 correlate
AWL
15 10
3 “ ”
3
confirm 15 implicate 17 allow 13
generate 9 indicate 8 3
3
2005
ライフサイエンス系英語語彙指導への一考察
-11-
Here, we describe
50 100
山下 美朋、西澤 幹雄、山中 司
-12-
A
1. Serum hemoglobin levels increased.
2. We studied the role of PTEN protein in the development of cancer.
3. We have shown that this kinase is a key factor in the signal transduction pathway.
4. Our data suggest that p53 has tumor suppressor activity.
5. The expression of COX-2 mRNA was decreased in adenomas.
6. The transcription factor NF- B was expressed in many types of cells.
7. The findings demonstrate that the steroid receptor binds to the DNA.
8. Those experiments indicate that these neurons produce acetylcholine.
9. We identified several mutations in the p53 gene.
10. Our data provide the first evidence that stem cells are present in the liver.
11. Heme oxygenase 1 is involved in the response to the oxidative stress and hypoxia.
12. The sequence analysis revealed that the mouse gene showed 78% homology to the human counterpart.
13. We examined the action of this anti-cancer drug.
14. The knockout of interferon gene produced a decrease in anti-viral responses.
15. The lack of TNF receptor did not affect susceptibility to bacterial infection.
16. We investigated details of this phenomenon.
17. The increase of this protein appears to be due to heat shock.
ライフサイエンス系英語語彙指導への一考察
-13-
18. These data support our idea of the mechanism.
19. We generated mice with deletion of two cytokine genes.
20. This disease is characterized by ulceration in the large intestine.
21. Seven of 81 genes exhibited increased expression in the pancreas.
22. It remains unclear how this kinase is involved in allergy.
23. We describe the identification of a novel gene.
24. Hepatitis C virus infection contributes to the development of liver cancer.
25. Caspase is defined as a protease that is essential in apoptosis and inflammation.
26. High cholesterol levels in the serum are correlated with the coronary heart disease.
27. Obesity in mice was prevented by the disruption of this gene.
28. Decreased expression of this protein resulted in necrosis in the lung.
29. Phosphorylation of the receptor may allow interaction with the adaptor protein.
30. The findings confirmed this hypothesis.
31. Data were analyzed by using Student's t test.
32. We evaluated the roles of this enzyme.
33. TRAF2, an adaptor protein, may represent an important target molecule.
34. EGFR is implicated in the tumorigenesis and carcinogenesis.
35. Taken together, these data suggest that IL-3 is involved in differentiation of hematopoietic cells.
山下 美朋、西澤 幹雄、山中 司
-14-
36. We estimated the expression levels of actin mRNA.
37. Cytoprotection by this drug depends on the increase of heat shock proteins.
38. We conclude that ubiquitination of this protein plays a pivotal role in the TNF induction.
39. This mechanism underlies the change of the gene expression.
40. Major advances have been made in understanding the mechanism of homologous recombination.
B
C
ライフサイエンス系英語語彙指導への一考察
-15-
1) 2) http://lsd-project.jp/cgi-bin/lsdproj/ejlookup04.pl 3) National Library of Medicine: NLM National Center
for Biotechnology: NCBI 4) 40 PubMed 5)
6) JACET 8000 1,000
Level 1: Level 2: Level 3: Level 4: Level 5:
Level 6: Level 7:Level 8:
8000 7) GSL (General Service List) Micheal West 1953 2,000 1995
New GSL 2,800 8) AWL (Academic Word List) Coxhead 2000
570 GSL New AWL 1,000
9) JACET8000 NA 5
10) Longman Dictionary of Contemporary English http://www.ldoceonline.com/
ESP FROWN
1 2005 13-28
37 2015 71-78 ESP MM News 7
2004 11-21 MM News
8 2005 33-41
13 2007 121-131
B 40 2007 71-92 ESP 2000
Anderson, R.C., & Freeboy, P. “Vocabulary knowledge.” In J.T. Guthrie (ed.). Comprehension and teaching: Research reviews. Newark, DE: International Reading Association, 1981, pp.77-117.
Coxhead, A. “A New Academic Word List.” TESOL Quarterly, Vol. 34, No.2, 2000, pp. 213-238. Huckin, T., Hayes, M., & Coady, J. Second Language reading and vocabulary learning. Norwood, NJ:Ablex, 1993. Nation, I.S.P. Teaching and learning vocabulary. Boston, MA: Heinle and Heinle, 1990. Nation, I.S.P. Learning Vocabulary in Another Language. New York: Cambridge University Press, 2001.
山下 美朋、西澤 幹雄、山中 司
-16-
1
:
=====================================================================
A Consideration of Theories of Japanese People Confronting Globalization: From the Contemporary Interpretation of Theories of Japanese Modernization of Soseki Natsume
Tsukasa Yamanaka
This paper attempts to reinterpret Soseki Natsume’s theory of civilization from the perspective of pragmatism, and stand out in relief as a pragmatist. Besides it argues that his thought has a significant implication to current Japanese society which is at the mercy of gloablization. According to Sato (2014), acceptance of pragmatism by Soseki has been hardly discussed except for some pointings from Hideyo Yamada (1983) and Shunsuke Tsurumi (2007: 182-185), therefore the approach of these considerations seem to be thought to have novelty. Picking up especially “Gendainihon-no-kaika” and “Watashi-no-kojinshugi” among his criticisms, the paper explores Soseki’s pragmatism and his suggestions for how to behave in the global society. Keywords; Soseki Natsume, Japanese Modernization, Pragmatism, Globalization, Theories of Japanese People E-mail: [email protected] (T. Yamanaka) =====================================================================
College of Life Sciences, Ritsumeikan University,
Kusatsu, Shiga 525-8577, Japan
立 命 館 大 学 理 工 学 研 究 所 紀 要 第75号 2016年
Memoirs of the Institute of Science and Engineering, Ritsumeikan University, Kusatsu, Shiga, Japan. No. 75, 2016
-17-
2
QS University Rankings 1
2
19
3
1911 ( 44 )8
(1) (2) 4 (1) ( )
1 Quacquarelli Symonds (http://www.topuniversities.com/university-rankings) Times Higher Education THE World University Rankings(https://www.timeshighereducation.co.uk/world-university-rankings) THE Ranking
2015 100 2014 1 19 21(https://www.timeshighereducation.co.uk/news/asia-university-rankings-2015-results-announced) 2 (http://www.mext.go.jp/a_menu/koutou/kaikaku/sekaitenkai/1319596.htm)
(http://www.mext.go.jp/a_menu/koutou/kaikaku/sekaitenkai/)
4 (2014: 9) ( )
山 中 司
-18-
3
5( ) (2)
6( )
7
(2014)(1983) (2007: 182-185)
3
( )
( )8 9 10
5 10 (1988: 550-552) 6 Ibid., 557-559 7 10 (1988: 626) 8 10 (1988: 546) 9 Ibid., 540 10 Ibid., 541
グローバル化に対峙せざるをえない日本社会論に関する一考察
-19-
4
11
12
13
14
15 16
( ) ( ) 17
(= )
18
11 Ibid., 541 12 Ibid., 540 13 Ibid., 541-542 14 Ibid., 542 15 Ibid., 543 16 Ibid., 545 17 Ibid., 546 18 Ibid., 551-552, 556-557
山 中 司
-20-
5
19
20
(2008)
(2003)
( 2003: 20)(2003)
( 2003: 160 )
19 10 (1988: 648-649) 20 Dewey(Dewey & Dewey 1915; 1974) ”Learning by doing”Dewey
グローバル化に対峙せざるをえない日本社会論に関する一考察
-21-
6
(2003: 120)
(2003: 121 )(2003: 121)
100%
21( )
22
23
Peirce([1878] 1992: 132)James(1907) 20
Rorty(1979)
21 10 (1988: 622-625) 22 (2003: 124)
( ) 23
(1835 1901 )( ) James
山 中 司
-22-
7
PierceJames Dewey(1916=1944)
Dewey Rorty
Dewey James
Peirce
(James 1956: 509)
3
24 25
26
27 28
29
30
31
32
33
24 10 (1988: 625) 25 (Ibid., 625) 26 Ibid., 623 27 Ibid., 624 28 Ibid., 627 29 Ibid., 626 30 Ibid., 625 31 Ibid., 624 32 Ibid., 623 33 Ibid., 626
グローバル化に対峙せざるをえない日本社会論に関する一考察
-23-
8
34
35
36 37 38 39
40 41
42 43
44
45( )
46
47
48
49
50
( ) ( )
34 Ibid., 627 35 Ibid., 630 36 Ibid., 623 37 Ibid., 626 38 Ibid., 628 39 Ibid., 627 40 Ibid., 626 41 Ibid., 626 42 Ibid., 627 43 Ibid., 626 44 Ibid., 628 45 Ibid., 628-629 46 Ibid., 625 47 Ibid., 626 48 Ibid., 626 49 Ibid., 626 50 Ibid., 626
山 中 司
-24-
9
51
52( )
53( ) 2.3
54 55
3.2
51 Ibid., 627 52 Ibid., 624-625 53 Ibid., 626 54 10 (1988: 558) 55 Ibid., 561
グローバル化に対峙せざるをえない日本社会論に関する一考察
-25-
10
(1) (2)
56
57
58
59
60
61
62 63
64
65
66
67
68
56 10 (1988: 623) 57 Ibid., 624 58 Ibid., 624 59 Ibid., 624 60 Ibid., 624 61 Ibid., 624 62 Ibid., 625 63 Ibid., 624 64 10 (1988: 551) 65 Ibid., 561 66 Ibid., 551 67 10 (1988: 628) 68 Ibid., 625
山 中 司
-26-
11
69
70
3.2
(authentic)
71
72
69 Ibid., 625 70 (1981)
( ) 71 Ibid., 626 72 10 (1988: 561)
グローバル化に対峙せざるをえない日本社会論に関する一考察
-27-
12
73( )
74
Dewey, J. & Dewey, E. “Schools of Tomorrow” Teachers College Record Volume 75, Number 3, pp. 411-412, 1974(1915). Dewey, J. Democracy and Education, New York: The Free Press, 1916(1944). James, W. Pragmatism: A new name for some old ways of thinking, New York: Longman Green and Co, 1907. James, W. The Will to Believe and Other Essays in Popular Philosophy: Human Immortality, Dover Pubns, 1956. Koopman, C. “Pragmatism as a Philosophy of Hope: Emerson, James, Dewey, Rorty” The Journal of Speculative Philosophy New Series, Vol. 20, No. 2, Essays from the Meeting of the Society for the Advancement of American Philosophy, pp.106-116, 2006. P.F. 1981 Peirce, C.S. “How to Make Our Ideas Clear,” 1878, in The Essential Peirce: Selected Philosophical Writings, Volume 1 (1867-1893). Ed. by Nathan Houser and Christian Kloesel, Bloomington: Indiana University Press, 1992. Rorty, R. Philosophy and the Mirror of Nature, Princeton University Press, 1979.
: : 2014 1979
: F 20 pp.45-58 2014 : :
2008 : 2007
: 5 http://www.toyokeizai.net/115-anniversary/series/tsurumi5-1.html
73 Ibid., 559 74 (1875; 1995) ( )
2( ) ( )
山 中 司
-28-
13
10 1988 : 2014
2003
1995 1986
= 1983
グローバル化に対峙せざるをえない日本社会論に関する一考察
-29-
立 命 館 大 学 理 工 学 研 究 所 紀 要 第75号 2016年
Memoirs of the Institute of Science and Engineering, Ritsumeikan University, Kusatsu, Shiga, Japan. No. 75, 2016
-31-
Chihiro Kaito,Saito Yoshio
-32-
Growth of Al4C3,Fe3C and SiC ultrafine Grains covered with Carbon layer
-33-
Chihiro Kaito,Saito Yoshio
-34-
Growth of Al4C3,Fe3C and SiC ultrafine Grains covered with Carbon layer
-35-
Chihiro Kaito,Saito Yoshio
-36-
Growth of Al4C3,Fe3C and SiC ultrafine Grains covered with Carbon layer
-37-
Chihiro Kaito,Saito Yoshio
-38-
Growth of Al4C3,Fe3C and SiC ultrafine Grains covered with Carbon layer
-39-
Chihiro Kaito,Saito Yoshio
-40-
Growth of Al4C3,Fe3C and SiC ultrafine Grains covered with Carbon layer
-41-
Chihiro Kaito,Saito Yoshio
-42-
1
- -
Error analysis of English essays written by Japanese college students
Miho Yamashita
A large-scale bilingual essay corpus by Japanese college students has been compiled in an attempt to clarify the features of interlanguage of English learners. Using this corpus, the current study focuses on grammatical and logical errors in English essays written by Japanese college students. The essays written by three groups of students from elementary to advanced levels of English proficiency were investigated. The results show that even among the students at the advanced level have many basic grammatical errors as well as discourse errors that hinder the logical development of an essay. This paper also reports on some of the major difficulties in error annotation and tagging.
Keywords: Interlanguage, Learner corpus, Error analysis, Logical linkage E-mail: [email protected] (M. Yamashita)
College of Life Sciences, Ritsumeikan University Kusatsu, Shiga, 525-8577, Japan
立 命 館 大 学 理 工 学 研 究 所 紀 要 第75号 2016年
Memoirs of the Institute of Science and Engineering, Ritsumeikan University, Kusatsu, Shiga, Japan. No. 75, 2016
-43-
2
, 2007i
ii
1.
learner corpus
International Corpus of Learner English (ICLE)iii
16 370
Nagoya Interlanguage Corpus of English (NICE)iv
International Corpus Network of Asian
Learners of English (ICNALE)v 1 Japanese EFL Learner Corpus (JEFLL
Corpus)vi NICT
JLE Corpusvii
Leech, 1998; Dulay and Burt, 1973
Ishikawa, 2013; , 2008; , 2007; , 2007; Izumi et al, 2004viii
, 2008; , 2007
, 2007; , 2007 Izumi et al (2004)
NICT JLE Corpus
2.
2.1
山下 美朋
-44-
3
2013 English Writing English
English Writing ix English
TOEIC G1 G2
L G1 650-750 G2 755-900 L 460-540
1 300 words 1 13 x
: 2013
G1 G2 L
78 69 11 158
945 841 127 1913
13
10 2
2 :
G1 G2 L
10 10 9 29
130 130 117 377
59,006 50,248 37,517 146,771
2.2
2.2.1
NICT-JLE Corpus NICE
Appendix 1
xi
“ ”
XML
< : >….
</> </ >
However, there are problems that scenes of violence <v9:have>make</> <art>a</> bad
<n1>effects</> <prp:of>on</> TV for children.
日本人大学生の英語エッセイに見られる語彙使用の特徴
-45-
4
<o4:illogical><art:a></>Lack of money does not enable poor people to save their health and lives</o4>.
2.3
2.4
3 1 3
3:
G G2 L
(%) (%) (%)
18.7 15.4 17.9
6.7 4.3 6.1
18.1 21.2 19.0
2.6 0.8 1.7
3.3 2.8 2.8
3.9 3.1 2.2
1.1 0.0 0.7
3.0 1.1 3.5
1.4 0.9 0.9
21.3 30.8 21.2
12.2 15.2 11.8
92.3 95.8 87.7
0.8 0.4 0.6
2.6 0.1 3.5
1.9 3.3 6.1
1.8 0.4 2.2
7.7 4.2 12.3
100.0 100.0 100.0
山下 美朋
-46-
5
ICLE v2 NICE , 2007;
, 2007; , 2008
G1 G2 L
L 2.2%
11.8%
1:
2.5
2.5.1 G1 TOEIC755-900
4 47.4%
23.9% 16.9%
because of the
way of English education method divide trash by kinds type
0.0 5.0 10.0 15.0 20.0 25.0 30.0 35.0
%
G G2 L
日本人大学生の英語エッセイに見られる語彙使用の特徴
-47-
6
1) : The government in each country promotes a movement which makes
the public aware of the importance to protect the environment.
2) : movement The government in each country promotes
the public awareness of the importance of protecting the environment.
movement
(25.0%)
(19.0%) 18.0% S 14.6%
time spending with friends time spent with friends they can feel refleshing they can feel reflexed
SVOC C
money is essential to maintain a health human life to maintaining
gather garbage sort garbage stick to marriage stay married
G1
4: %
G G2 L
n1 8.8 47.4 9.0 58.1 9.4 52.5
n2 0.1 0.5 0.3 1.8 0.2 1.3
n3 0.0 0.1 0.0 0.0 0.0 0.1
n4 4.5 23.9 3.3 21.4 2.9 16.4
n4_1 0.7 3.7 1.5 10.0 1.0 5.4
n5 1.4 7.5 0.5 3.2 1.0 5.4
n6 3.1 16.9 0.8 5.4 3.4 18.9
18.7 100.0 15.4 100.0 17.9 100.0
v1 0.0 0.2 0.0 0.0 0.0 0.1
v2 2.7 14.6 3.8 18.0 3.5 18.3
v3 1.2 6.4 2.2 10.2 1.8 9.4
山下 美朋
-48-
7
v4 3.4 19.0 4.7 22.2 2.9 15.2
v5 0.5 2.9 0.7 3.2 0.5 2.7
v6 0.0 0.1 0.0 0.1 0.0 0.1
v7 0.3 1.9 0.0 0.0 0.3 1.8
v8 0.2 1.0 0.1 0.6 0.2 1.3
v9 4.5 25.0 5.5 26.0 4.4 23.4
v9_1 0.1 0.6 0.3 1.6 0.3 1.7
v10 1.9 10.3 2.3 11.0 2.3 11.9
v11 3.3 18.0 1.5 7.0 2.7 14.1
18.1 100.0 21.2 100.0 19.0 100.0
o1 0.8 9.8 0.4 8.8 0.6 5.1
o2 2.6 33.8 0.1 2.2 3.5 28.1
o3 1.9 24.5 3.3 78.8 6.1 49.2
o4 1.8 24.0 0.4 10.2 2.2 17.6
7.7 100.0 4.2 100.0 12.3 100.0
2.5.2 G2: TOEIC650-750
58.1% 21.4% 2 80%
10% Recently, the news about suicide is reported
frequency. frequently If people start smoking earlier, the possibility of being nicotine dependence tends to be
high. dependent Violence on TV violence violent
20 Children watch violence scenes on TV. game movie
2008
win the league championship instruments equipment break of ozone layer destruction
manner morale, climate weather, way method, base basis, disorder of creatures chaos of
living things
(26.0%) (22.2%) (18.0%)
I came true my goal. I achieved my goal.
consider the real and the world of TV dramas
distinguish
5
日本人大学生の英語エッセイに見られる語彙使用の特徴
-49-
8
2.5.3 L: TOEIC460-540
(52.5%) (18.9%)
(16.4%)
movement with the car travel by the car From man between 20 years old to 45 years
old, the suicide is the first place mistake way mistaken way
money for amusement expense money for fun expense
ing threaten the living of people lives
of people; stop the destroying the earth stop the destruction of the earth.
(23.4%) (18.3%)
(15.2%) 26%
do a luxurious life make, have a friend make, The media
takes up them too much The media mentions them too much
happen the change in feeling happen have
3
2.5.4
However, Therefore, Moreover Then, Also, Actually, Especially
And, But and, but, so
G1
山下 美朋
-50-
9
3) 4)
3) Some islands are suffering from a huge amount of rubbish which is floating in the sea.
Some islands are suffering from a huge amount of rubbish floating in the sea.
4) This essay will talk about the reasons which affect the percentage of divorce rate.
This essay will talk about the reasons affecting the percentage of divorce rate.
2.6
6 8
o4 G1 G2
112 L 94
5
Wikborg, 1990; Mahiroh, 1991
G1 G2
46 L 21
5:
G2 L
46 17 63
19 21 41
16 12 28
11 10 21
9 4 13
11 29 40
112 94 206
5)
6)
日本人大学生の英語エッセイに見られる語彙使用の特徴
-51-
10
5) : Now, the women can have the same opportunities to get promoted and high salary as well as
men.
6) : Part time jobs can be a cause of disease. It is widely known that the harder a job college
students have, the more money they can earn, so some people choose difficult part time job needed hard work to
earn a huge amount of money.
“ ”
7)
o4 what survey?
survey
7) In fact, in Japan, there are about ten million <n4:victims>sufferers</>. <o4:what survey?>From this
survey</o4>, we <v9>are able to</><m2>should</> recognize that online fraud is not another person's
problem
2.7
“ ”
<v_dis> <v_lxc>
山下 美朋
-52-
11
follow-up interview
i
ii 2013 - - 9 p117-139
iii Sylvaine Granger
iv 7 v 10 100 vi 1 viivii 100 viii ICLE NICT JLE Corpus
JEFLL NICE ix SA (Study Abroad)
日本人大学生の英語エッセイに見られる語彙使用の特徴
-53-
12
ix NICE 13
1) Environmental pollution, 2) Violence on TV, 3) Young people today, 4) Suicide, 5) Sports,6) School education, 7) Recycling reusable materials, 8) Money, 9) Divorce, 10) Death penalty, 11) Crime, 12) Part-time job, and 13) Smoking. ix
(2007)
, .
(2008). NICT JLE NICE
(pp.137–145). 16 17 18
16652044.
(2008). The NICT JLE Corpus/NICE
, pp. 137-146.
( ) (2007). JEFLL Corpus —
— .
Dulay, H. C., & Burt, M. K. (1973). Should we teach children syntax? Language Learning, 23, 245-258.
Izumi, E., Uchimoto, K., & Isahara, Hitoshi. Error Annotation for Corpus of Japanese Learner English. Retrieved
from https://pdfs.semanticscholar.org/128f/524a3c43f4f423e9da5015722d8e2fbc5851.pdf
Leech, G. (1998). Preface. In S. Granger (Ed.), Learner English on computer (pp. xiv-xx). Harlow, England:
Addison Wesley Longman.
Maghfiroh, S. (2013). Coherence Breaks in Essay Made by the 6th Semester Students of English Department of
STAIN Salatiga in the Academic Year of 2012/2013. Retrieved from
http://eprints.stainsalatiga.ac.id/view/subjects/PBI.html.
Ishikawa, S. (2013). The ICNALE and Sophisticated Contrastive Interlanguage Analysis of Asian Learners
of English. In S. Ishikawa (Ed.), Learner Corpus Studies in Asia and the World. Vol 1 (pp.91-118). Kobe,
Japan: Kobe University.
Wikborg, E. (1990). Types of coherence breaks in Swedish student writing: Misleading paragraph division. In U.
Connor and A. M. Johns (Eds.), Coherence in writing: Research and pedagogical perspectives (pp. 131-
148). Alexandria: TESOL.
山下 美朋
-54-
13
Appendix 1.
Nouns Adjective
<n1>_</> <aj1>_</>
<n2>_</> <aj2>_</>
<n3>_</> <aj3>_</>
<n4>_</> Adverb
<n5>_</> <ad1>_</> "
<n6>_</> <ad2>_</>
Pronoun <ad3>_</>
<pn1>_</> <ad4>_</>
<pn2>_</> Conjuncts
<pn3>_</> <con1>_</>
<pn4>_</> <con2>_</>
Verb <con3>_</>
<v1>_</> <con4>_</>
<v2>_</> Relatives
<v3>_</> <rel1>_</>
<v4>_</> <rel2>_</>
<rel3>_</>
to- <rel4>_</>
<v5>_</> Linking adverbs
<v6>_</> <lav1>_</>
<v7>_</> <lav2>_</>
<v8>_</> <lav3>_</>
<v9>_</> <lav4>_</>
<v10>_</> Articles <art>_</>
<v11>_</> Prepositions <prp>_</>
Modal verb Other category
<m1>_</> <o1>_</o1>
<m2>_</> <o2>_</o2>
<m3>_</>
<m4>_</> <o3>_</o3>
<o4>_</o4>
日本人大学生の英語エッセイに見られる語彙使用の特徴
-55-
1) 2)
Surface structure of polishing pads for polishing using composite abrasives
Yasuhiro TANI1) and Yu ZHANG 2)
Cerium oxide (CeO2) abrasives are generally used in the glass polishing because high removal rate and smooth glass surface can be obtained. However, CeO2 abrasives have problems with dispersion of slurry and cleaning from glass surface. The polymer-CeO2 composite abrasive was developed to improve polishing performance and decrease cleaning time of polished surfaces. The composite abrasive has a core-shell structure which a polymer particle forms a core and a CeO2 layer covers the polymer particle. In this study, we investigated the effect of polishing pads on polishing characteristics of composite abrasives. First, we investigated the effect of the pore size of polishing pad on the polishing pad on the polishing performance using composite abrasives. We employed three suede type polishing pads for polishing using composite abrasives. The removal rate using suede type pads with average pore size of 20-60 m was higher than that using suede type pads with other pore sizes. Next, we investigated the effect of pore diameter of porous polishing pads on polishing characteristics using composite abrasives. The removal rate using polishing pads with average pore diameter of 67 m was approximately two times higher than that of polishing using polishing pads with average pore diameter of 250 m. In addition, we investigated the relationship between removal rate and polishing conditions. The removal rate using composite abrasives was higher than 0.8 m/min when concentration of slurry was 3.0wt%. Finally, we employed epoxy resin polishing pads. The polishing characteristics using composite abrasives with epoxy polishing pad were higher than the polishing characteristics using composite abrasives with polyurethane resin polishing pads.
Key Words : Cerium oxide, Polishing, Glass, Removal rate, Surface roughness, Composite abrasives
E-mail [email protected] (Y. Zhang)
1)
2)
1) Department of Mechanical Engineering, Ritsumeikan University,Kusatsu, Shiga, 525-8577, Japan
2) Research Organization of Science and Technology, Ritsumeikan University,Kusatsu, Shiga, 525-8577, Japan
立 命 館 大 学 理 工 学 研 究 所 紀 要 第75号 2016年
Memoirs of the Institute of Science and Engineering, Ritsumeikan University, Kusatsu, Shiga, Japan. No. 75, 2016
-57-
1.
2006 6.8 g/cm3
2009 2012
20052009
50 %
10
20 %
50 %
0.8 m/min 0.6 nmRa
2.
2012
FF-621T SHOROX A-10TDR-100 1M
1 12 200 41
2009
谷 泰弘、張 宇
-58-
21 m 1
2008 2013 2010 201110 m
Fig.1 SEM images of CeO2 abrasives, polymer particles and composite abrasives
Fig.2 The particle size distribution of composite abrasives
Table 1 Characteristics of mother particles and abrasive
PariticlesMean diameter
[ m]Specific gravity
[g/cm3]Material Role
CeO2 1.2 6.96 Cerium oxide Child particle
FF-621T 10.0 1.38Polyurethane,
polymethylmethacrylateMother particle
Without sievedcomposite abrasive
2.58 4.96Cerium oxide and polymer
particleComposite abrasives
Sieved composite abrasive
10.6 2.84Cerium oxide and polymer
particleComposite abrasives
複合砥粒を用いた研磨に適した研磨パッドの表面構造
-59-
NAP NAP
NAP 3NP225 NP178 NP515 FILWEL S M
L 2 SEM 3 SM L NAP ML S M
2009
DM-701 3 wt%100 L 2 NAP
480 m 20-60 m M 49 3 SL 35 M NAP
NAP
Table 2 Characteristics of suede type polishing pads
Pad namePad
thickness[mm]
NAP layer thickness
[ m]
Pore size[ m]
Density[g/cm3]
Hardness[Asker-C]
Sliding angle on using composite abrasives slurry
[degree]Suede S 0.80 580 5-75 0.54 76 37Suede M 0.72 480 20-60 0.61 82 49Suede L 0.68 460 30-100 0.60 81 32
Fig.3 SEM images of suede type polishing pads (Upper figures: top view, lower figures: cross-sectional view)
谷 泰弘、張 宇
-60-
3 380 mmSPL15 3
90 mm 35 mm 120 GCGC#2000 Ra 0.4 m
3 wt%
3 Zygo New View503280 m Ra 3 3
10 %4 4 M
L S10
0.7 m/min 0.85 m/minS L 0.57 m/min
0.63 m/min2010
Table 3 Polishing conditionPolishing machine Lapping machine SPL-15 Okamoto machine tool works, Ltd.Workpiece Sodalime glass: 20×t10mm Surface roughness: 0.4 RaPressure [kPa] 20Work/Lap rotation [min-1] 60Polishing time [min] 30Abrasives Composite abrasives, CeO2 (SHOROX A-10, Showa Denko K.K.)Concentration of slurry [wt%] 0.75, 3Supply rate of slurry [mL/min] 25
Fig.4 The polishing characteristics of composite abrasives with suede type pads
複合砥粒を用いた研磨に適した研磨パッドの表面構造
-61-
20-60 m NAP20-60 m NAP
3.
20-60 m
60 mND95
ND95KSP-66A SEM 5
100 m 4KSP-66A 250 m ND95
67 m5
1 mm 150 m 5 mm/min200 min-1 #100
60 min-1 10
Fig.5 SEM image of polishing pad surface
Table 4 Characteristics of polishing pads
Padname
Hardness [JIS-A]
Pore size [ m]
Density[g/cm3]
Sliding angle of CeO2 slurry[degree]
Sliding angle of composite abrasives slurry [degree]
Large pore 78 250 0.40 28 38
Small pore 93 67 0.45 51 49
谷 泰弘、張 宇
-62-
3 wt 0.75 wt%100 L
5 3 wt% 28 51
0.75 wt% 38 49
3 wt% 0.75 wt%2 3 6
Table 5 Dressing conditionType of polishing pad Urethane foam type
Facing condition
Tool Single crystal diamond bite (Nose radius : 1mm)Cutting depth [ m] 150Lap rotation [min-1] 200Feed speed [mm/min] 5
Dressing condition
Tool Electrodeposited diamond dresserGrain size 100Dresser diameter [ m] 170Dresser rotation [min-1] 60Lap rotation [min-1] 60Pressure [kPa] 7
Fig.6 The polishing characteristics of polishing using composite abrasives with small pore pad
複合砥粒を用いた研磨に適した研磨パッドの表面構造
-63-
2
7 90 min-1120 min-1
90 min-1
83 wt%
0.8 m/min 0.9 m/minM
0.75 wt% M0.15 m/min
Fig.7 Relationship between removal rate and rotation Fig.8 Relationship between removal rate and concentration of slurry
谷 泰弘、張 宇
-64-
60 m0.6 m/min
4.
60 m
0.8 m/min
22011
6 200 m60 m
0.75 wt%
SEM 9100 m 100 m
0.75 wt% 10
0.5 nmRa
Table 6 Characteristics of epoxy resin polishing pads
Pad name Hardness[JIS-A]
Pore size[ m]
Density[g/cm3]
Sliding angle using composite abrasives slurry[degree]
Epoxy large pore 72 200 0.62 43Epoxy small pore 85 60 0.59 42
Fig.9 SEM images of epoxy resin polishing pads
複合砥粒を用いた研磨に適した研磨パッドの表面構造
-65-
0.8 m/min
60 m
60 m
5.
1) 20-60 m
2) 60 m2
3) 120 min-13 wt%
0.9 m/min
4)0.75 wt% 0.8 m/min 0.5 nmRa
5)
, , , , , C , Vol.74, No.747 (2008), pp.2803-2808.
, , , Vol.60, No.1 (2009), pp.21-26.
Fig.10 Polishing characteristics of sieved composite abrasives with epoxy resin polishing pad
谷 泰弘、張 宇
-66-
, , , , , CMP EHL, , Vol. 79, No.1 (2013), pp.73-80
, , , , , , C , Vol.75, No.757 (2009), pp.2429-2434.
, , , , , , , C , Vol.78, No.790 (2012), pp.2302-2311.
, , , Vol.57, No.11 (2006), pp.744-751., , , , , , ,
C , Vol.77, No.777 (2011), pp.2153-2161., , , , ,
, C , Vol.77, No.783 (2011), pp.4308-4317., , , , , ,
Vol. 56, No.11 (2005), pp. 687-691., , , 1 -
-, , Vol.76, No.3 (2010), pp. 322-326.
複合砥粒を用いた研磨に適した研磨パッドの表面構造
-67-
1) 2)
Development of drum-type manufacturing method for electroplated diamond wire tools
Yu ZHANG 1) and Yasuhiro TANI2)
Diamond wire saws are widely used in slicing various kinds of hard and brittle materials, such as silicon, sapphire, etc. Electroplated diamond wire tools are used for high-efficiency slicing process, because of high abrasion resistance. However, low production efficiency of diamond wire tools causes high cost in the production process, because the electroplating rate is low. To solve the problems, a drum-type manufacturing method for electroplated diamond wire tools was developed in this study. Multiple diamond wire tools could be manufactured simultaneously at high speed in one machine. The mechanism of drum type electroplating unit was introduced, firstly. Then the electroplating characteristics, such as maximum current density, Ni deposition rate and uniformity of electroplated wires, were evaluated. Composite electroplating experiments using diamond abrasive were carried out and the effect of electroplating factors on the amount of electrodeposited diamond grains was discussed, too. It was found that turbulence flow of electroplating solution could improve amount of deposited diamond grains. Long diamond wire tools were manufactured and used to slice Si ingot, it was confirmed that the developed wire tools have high slicing performance equal to the commercially available diamond wire tool.
Key Words : Diamond wire tool, Wire sawing, Electroplating, Current density, Deposition rate, Slice
E-mail [email protected] (Y. Zhang)
1)
2)
1)Research Organization of Science and Technology, Ritsumeikan University,Kusatsu, Shiga, 525-8577, Japan
2) Department of Mechanical Engineering, Ritsumeikan University,Kusatsu, Shiga, 525-8577, Japan
立 命 館 大 学 理 工 学 研 究 所 紀 要 第75号 2016年
Memoirs of the Institute of Science and Engineering, Ritsumeikan University, Kusatsu, Shiga, Japan. No. 75, 2016
-69-
1.
LEDLED
GCWebster and Tricard, 2004
2 3 SiC
Clark et al.,2003 Chen et al.,2014100 m 10 m
160 m 30-40 m2
1989
2003 20102012
2.
2 1
1969
20132
2
張 宇、谷 泰弘
-70-
1(a) 3
1(b)
2
3mm
10mm 0.25mm
Fig.1 Schematic of drum type plating unit
Fig.2 Schematic of simple drum type plating unit
ドラム式電着ダイヤモンドワイヤ製造技術の開発
-71-
1mm 1989
22
2011
33(a) 8
3(b)
2 210vol%
1
4(a)4(b)
Fig.3 Variation of thickness of plated layer in circumferential direction of wire caused by the rotating core rotor
Table 1 Basic electroplating condition
張 宇、谷 泰弘
-72-
5(a) 100rpm 200rpm 2
Ni2+200rpm
5(b)Ni2+
1
6(a) 26(b) 1
Ni2+ 2 2
Fig.4 Effect of anode configuration on limiting current density
Fig.5 Effect of rotating speed of core rotor on limiting current density, deposition rate and plating solution
ドラム式電着ダイヤモンドワイヤ製造技術の開発
-73-
2mm7 1
2 2
28mm 8.9 m 2mm 37.2 m2mm 5
28mm1
50mm
2 32
Fig.6 Thickness distribution of plated layer around wires
Fig. 7 Cross section of two wires plated in parallel
張 宇、谷 泰弘
-74-
8(a)
1999
2 Flowsquare3.1b 21977
8(b)
3.
3 1
Fig. 8 Uniformity in abrasive distribution with obstacles
Fig. 9 Continuous manufacturing system of diamond wire tools
ドラム式電着ダイヤモンドワイヤ製造技術の開発
-75-
9(a)
90mm 610mm 130mm 1mm
9mm350mm 550mm
2L
9(b) 1 13
10L
pH 4
Fig.10 Limiting current density depending on rotating speed of core rotor
張 宇、谷 泰弘
-76-
3 2
10(a)
1/2100mm
350mm3.5 3.52
10(b)
350mm 550mm 2 11(a)90
100A/dm2 350mm 1.32A550mm 2.07A550mm 90A/dm2 2
80A/dm2 350mm170A/dm2 11(b)
Fig.11 Diameter of wire deposited at various height form the bottom of plating bath
Fig.12 Effect of current density on deposited diamond abrasives
ドラム式電着ダイヤモンドワイヤ製造技術の開発
-77-
550mm2/3
350mm 550mm
Ni
2350mm 12
13(a)
13(b)
Fig.13 Effects of current density or rotating speed of core rotor on diamond density of wire tools
Table 3 Schematic diagram and conditions of slicing test.
張 宇、谷 泰弘
-78-
4.
5m/min 500mWSD-K2 3
0.3mm 3 2MC-80C 30
14(a)14(b)
15
5.
Fig.14 Photo and surface roughness of sliced silicon wafer
Fig.15 Photos of trial diamond wire tool having a diamond density of about 30/mm in before and after slicing test
ドラム式電着ダイヤモンドワイヤ製造技術の開発
-79-
(1) 100A/dm2
(2) mm
(3)
(4)
(5)
Mohd AizatFACT
(1977), pp.277-279.(1999), pp.81-83.
Chen, W., Liu X., Li, M., Yin, C. and Zhou, L., On the nature and removal of saw marks on diamond wire sawn multicrystalline silicon wafers, Materials Science in Semiconductor Processing, Vol.27 (2014), pp. 220-227.
, , , , CVol.69, No.680 (2003), pp.303-309.
Clark, W.I., Shih, A.J., Hardin,C.W., Lemaster, R.L. and McSpadden, S.B., Fixed abrasive diamond wire machining—part I: process monitoring and wire tension force, International Journal of Machine Tools and Manufacture, Vol.43, No.5 (2003), pp. 523-532.
, , , , (1989), p.4.(1989), pp.63-66.
Vol.20, No.12 (1969), pp.621-627.2011
(2011), pp.261-262., ,
Vol.56, No.10 (2012), pp.703-708., , ,
Vol. 54, No. 5 (2010), pp. 298-303.Vol.57, No.8 (2013),
pp.498-501.Webster, J. and Tricard, M., Innovations in abrasive products for precision grinding, CIRP Annals - Manufacturing
Technology, Vol.53, No.2 (2004), pp.597-617.
張 宇、谷 泰弘
-80-
O-GlcNAc
1) 1) 2) 3) 1,3)
Evolutionary analysis for O-GlcNAcylated proteins by clustering method
Jun Tanaka1), Masaoki Fujii1), Ryuta Ueda2), Hisao Kojima3), Masahiro Ito1, 3)
O-GlcNAcylation, the attachment of a single N-acetylglucosamine to serine/threonine residues of proteins by O-GlcNAc transferase (OGT), is essential for protein function in eukaryotes. OGT was shown to be essential for the viability of embryonic stem cells. In spite of these important roles, no consensus sequence for O-GlcNAcylation had been found so far. There are many parallels between phosphorylation and O-GlcNAcylation; attachment occurs to serine/threonine residues, half-life is short, occurrence is infrequent in structured regions, whereas dominant in intrinsically disordered regions (IDRs).
In this study, we clustered O-GlcNAcylated proteins to investigate the relation between their evolutionary conservation and function for proteins. We used the experimental data of human O-GlcNAcylated proteins. Firstly, KEGG ortholog cluster was used for homology search in eukaryotes with genomes completely sequenced. Secondly, O-GlcNAcylated residues in orthologous proteins were checked for conservation using multiple sequence alignment. Finally, O-GlcNAcylated proteins were clustered by the degree of their conservation.
In the clustering result, O-GlcNAcylated proteins clustered into 3 clusters, Classes 1 to 3. In addition, each cluster further clustered into 3 subclusters, like subclasses 1-1 to 1-3. Both ratios of O-GlcNAcylation within IDRs and co-occurrence of O-GlcNAcylation/phosphorylation at identical region were high in evolutionarily young clusters. Comparison of the degree of conservation in OGT and O-GlcNAcase (OGA), the degrading enzyme of O-GlcNAc, showed that OGT was more widely conserved than OGA. In addition, approximately half of O-GlcNAcylated proteins were as conserved as OGA. These results suggest that a lot of O-GlcNAcylated proteins were acquired along with OGA.
Keywords: O-GlcNAc, Intrinsically disordered protein, phosphorylation, PTM
Email: [email protected] (M. Ito)
1) 2)
3) 1) Dept. of Bioinfo., Grad. Sch. of Life Sci., Ritsumeikan Univ.
1-1-1 Noji-higashi, Kusatsu, Shiga 525-8577, Japan 2) Grad. Sch. of Technol. Mgmt., Ritsumeikan Univ. 2-150 Iwakura-cho, Ibaraki, Osaka 567-8570, Japan
3) Dept. of Bioinfo., Coll. of Life Sci., Ritsumeikan Univ. 1-1-1 Noji-higashi, Kusatsu, Shiga 525-8577, Japan
立 命 館 大 学 理 工 学 研 究 所 紀 要 第75号 2016年
Memoirs of the Institute of Science and Engineering, Ritsumeikan University, Kusatsu, Shiga, Japan. No. 75, 2016
-81-
-N O-GlcNAc
[1,2] O-GlcNAc
O-GlcNAc
[3] O-GlcNAc
[4] O-GlcNAc
[5]
[6] O-GlcNAc O-GlcNAc O-GlcNAc
OGT O-GlcNAc O-GlcNAc OGA 2
[7,8] OGT
[9] OGT OGT
[10] O-GlcNAc
( IDP) (ID ) [11,12] IDP
[13,14] ID [15]
O-GlcNAc IDP ID
O-GlcNAc
O-GlcNAc O-GlcNAc O-
GlcNAc ID
田中 純、藤井 正興、植田 竜太、小島 寿夫、伊藤 將弘
-82-
O-GlcNAc
O-GlcNAc OGTSite [16]
O-GlcNAc
UniProt [17] ID DICHOT
[18] PhosphoSitePlus [19]
O-GlcNAc O-GlcNAc
KEGG [20]
KEGG Organisms Complete Genomes http://www.kegg.jp/kegg/catalog/org_list.html
OGT OGA
O-GlcNAc OGT O-GlcNAc OGA O-GlcNAc
KEGG
O-GlcNAc
O-GlcNAc O-GlcNAc
O-GlcNAc
clustalw2 O-GlcNAc O-
GlcNAc
O-GlcNAc O-GlcNAc
1 A O-GlcNAc
A,B,C,D 1,2,3
O-GlcNAc
-1
1 O-GlcNAc
O-GlcNAc
= 1
進化的分類によるO-GlcNAc修飾タンパク質の解析
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A
B
1. (A) O-GlcNAc
S T O-GlcNAc O-GlcNAc(B) (A)
O-GlcNAcA O-
GlcNAc A 0.5O-GlcNAc
C -10.5 0 -
1
田中 純、藤井 正興、植田 竜太、小島 寿夫、伊藤 將弘
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O-GlcNAc
OGTSite 162 162
O-GlcNAc 408 O-GlcNAc 162
ID 49.6% O-
GlcNAc 408 319 (78.2%) ID
O-GlcNAc ID O-GlcNAc
O-GlcNAc OGT
OGT O-GlcNAc O-GlcNAc
[21] ID OGT ID
O-GlcNAc
O-GlcNAc
162 O-GlcNAc 408 O-GlcNAc
O-GlcNAc
408
3 1 3
3 1 47 2 94
3
1-1 1-2 1-3
1 O-GlcNAc 1-3 1-2
O-GlcNAc
2 O-GlcNAc
2-1 2-2 2-3
3 3-1 3-2 3-3
3-3 O-GlcNAc 3-2
進化的分類によるO-GlcNAc修飾タンパク質の解析
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2. O-GlcNAc OGTSite O-GlcNAc O-GlcNAc
OGT OGA
OGT OGA
O-GlcNAc OGT O-GlcNAc OGA
2 OGT
3-1
OGA
2 OGA O-GlcNAc
O-GlcNAc
OGA OGT 2
OGT OGT
O-GlcNAc OGA
O-GlcNAc O-GlcNAc
OGT O-GlcNAc OGT
O-GlcNAc OGA O-GlcNAc
O-GlcNAc OGA O-GlcNAc
OGA O-GlcNAc O-GlcNAc
田中 純、藤井 正興、植田 竜太、小島 寿夫、伊藤 將弘
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ID O-GlcNAc
O-GlcNAc 408 (78.2%) 319 ID
ID 3 ID
1 2 3 ID
3A O-GlcNAc ID
3B ID O-GlcNAc
3. ID O-GlcNAc
A ID BO-GlcNAc ID
A B O-GlcNAc
O-GlcNAc
O-GlcNAc c-Myc
[22] CK2
O-GlcNAc [23]
O-GlcNAc 4 O-GlcNAc
4A O-GlcNAc
3 4B
3-1 3-2 3-3 O-GlcNAc
3-3 2
3-
3 O-GlcNAc 5 3-3
O-GlcNAc
進化的分類によるO-GlcNAc修飾タンパク質の解析
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4. O-GlcNAc
O-GlcNAc AB O-GlcNAc
0 1O-GlcNAc
5. 3-3 O-GlcNAc 3-3 O-GlcNAc
O-GlcNAc
O-GlcNAcPHB DNA Prohibitin H2B1B
ACTS PRB1 RNA RPB1 T1618ID O-GlcNAc
O-GlcNAc OGT O-GlcNAc
OGT
O-GlcNAc O-
GlcNAc OGT O-GlcNAc
OGA O-GlcNAc
O-GlcNAc
ID
ID
田中 純、藤井 正興、植田 竜太、小島 寿夫、伊藤 將弘
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田中 純、藤井 正興、植田 竜太、小島 寿夫、伊藤 將弘
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TEM SEM
Cu(In Ga)Se2
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1. “Ionic Conduction in Lithium Ion Battery Composite Electrode Governs
Cross-sectional Reaction Distribution”, Y. Orikasa, Y. Gogyo, H. Yamashige, M. Katayama, K. Chen, T. Mori, K. Yamamoto, T. Masese, Y. Inada, T. Ohta, Z. Siroma, S. Kato, H. Kinoshita, H. Arai, Z. Ogumi, Y. Uchimoto, Sci. Rep., 6, 26382 (2016).
2. “ X”, , , , ,
, J. Vac. Soc. Jpn., 59(11), 293-300 (2016). 3. “A Comparison on Ce3+ Luminescence in Borate Glass and YAG Ceramic:
Understanding the Role of Host's Characteristics”, A. D. Sontakke, J. Ueda, J. Xu, K. Asami, M. Katayama, Y. Inada, S. Tanabe, J. Phys. Chem. C, 120(31), 17683-17691 (2016).
4. “Particle Size Effect of Redox Reactions for Co Species Supported on Silica”, S. Chotiwan, H. Tomiga, M. Katagiri, Y. Yamamoto, S. Yamashita, M. Katayama, Y. Inada, J. Solid State Chem., 241, 212-218 (2016).
5. “Inhomogeneous Distribution of Chemical Species in Lithium Nickel Oxide Cathode of Lithium Ion Battery”, T. Uenoyama, R. Miyahara, M. Katayama, Y. Inada, J. Phys. Conf. Ser., 712(1), 012143 (2016).
6. “Oxidation Property of SiO2-Supported Small Nickel Particle Prepared by the Sol-Gel Method”, Y. Yamamoto, S. Yamashita, N. Afiza, M. Katayama, Y. Inada, J. Phys. Conf. Ser., 712(1), 012075 (2016).
7. “In-Situ XAFS Study for Calcination Process of Cr Catalyst Supported on -Al2O3 and SiO2, T. Watanabe, K. Ikeda, M. Katayama, Y. Inada, J. Phys. Conf.
Ser., 712(1), 012073 (2016). 8. “Time-Resolved Study on Dynamic Chemical State Conversion of
SiO2-Supported Co Species by Means of Dispersive XAFS Technique”, S. Chotiwan, H. Tomiga, S. Yamashita, M. Katayama, Y. Inada, J. Phys. Conf. Ser., 712(1), 012061 (2016).
9. “In Situ Time-Resolved Dispersive X-Ray Absorption Fine Structure Analysis of BaTiO3-LiCoO2 Composites for Lithium Ion Batteries”, T. Teranishi, Y. Yoshikawa, R. Miyahara, H. Hayashi, A. Kishimoto, M. Katayama, Y. Inada, J. Ceram. Soc. Jpn., 124(6), 659-663 (2016).
10. Multiaxial Fatigue Property of Ti-6Al-4V using Hollow Cylinder Specimen under Push-pull and Cyclic Inner Pressure Loading”, Takahiro Morishita, Takamoto Itoh, Masao Sakane, Hiroshi Nakamura, Masahiro Takanashi, International Journal of Fatigue , Vol. 87, No.6 (2016), pp.370-380
11. “Evaluation of multiaxial low cycle fatigue life for type 316L stainless steel notched specimen under non-proportional loading”, Takahiro Morishita,
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Takamoto Itoh, Theoretical and Applied Fracture Mechanics, Vol. 84 (2016), pp.98-105
12. “Multiaxial Fatigue Strength of Type 316 Stainless Steel under Push-pull, Reversed Torsion, Cyclic Inner and Outer Pressure Loading”, Takahiro Morishita, Takamoto Itoh, Zhenlong Bao, International Journal of Pressure Vessels and Piping, Vol. 139-140 (2) (2015), pp.228-236
13. “”, , , , , Vol.19,
No.3 128 (2016), pp.170-176 14. Creep Characteristic of Sn1.0Ag0.7Cu Lead-Free Solders with Element
Addition”, Fumio Ogawa, Hiroki Nagao, Takamoto Itoh, Masao Sakane, Mitsuo Yamashita, Hiroaki Hokazono, Applied Mechanics and Materials (SI: Innovation in Testing and Evaluation of Structural Integrity), Vol. 853, pp. 192-196, 2017
15. “Development of Bending and Torsion Fatigue Testing Machine for Multiaxial Non-Proportional Loading”, Takahiro Morishita, Takamoto Itoh, Masao Sakane, Applied Mechanics and Materials (SI: Innovation in Testing and Evaluation of Structural Integrity), Vol. 853, pp. 534-538, 2017.
16. Sn-8Zn-3Bi , , , , , Vol.66, No2,
17. “ 9Cr-1Mo”, , , , , , , Vol.66,
No2, 18. “Analysis of Multiaxial Low Cycle Fatigue of Notched Specimens for Type 316L
Stainless Steel under Non-proportional Loading”, Pasquale GALLO, Stefano BRESSAN, Takahiro MORISHITA, Takamoto ITOH, Filippo BERTO, Theoretical and Applied Fracture Mechanics,
19. “Multiaxial creep damage and lifetime evaluation under biaxial and triaxial stresses for type 304 stainless steel”, Hiroki Kobayashi, Ryohei Ohki, Takamoto Itoh, Masao Sakane, Engineering Fracture Mechanics,
20. Microstructure and Thermal Stability of Rf-Plasma-Nitridated -(AlGa)2O3 Grown by Mist CVD, A. Buma, N. Masuda, T. Araki, Y. Nanishi, M. Oda, T. Hitora, Phys. Status Solidi (c) (2016)
21. Effect of bimodal grain size distribution on fatigue properties of Ti-6Al-4V alloy with harmonic structure under four-point bending, Shoichi Kikuchi, Yosuke Hayami, Takayuki Ishiguri, Benjamin Guennec, Akira Ueno, Mie Ota, Kei Ameyama, Materials Science and Engineering: A, 687, 27, 269–275 (2017).
22. Statistical fatigue strength evaluation and inelastic deformation generated during static and cyclic loading in Ce-TZP/alumina nanocomposite: Part 1—in air environment, Akira Ueno, Masahiro Nawa, Kosuke Omori, Naoki Kurizo, Journal of the European Ceramic Society, 37, 2, 679–687 (2017).
23. Fracture surface topography analysis of the hydrogen-related fracture propagation process in martensitic steel, Akinobu Shibata, Takahiro Matsuoka, Akira Ueno, Nobuhiro Tsuji, International Journal of Fracture, doi:10.1007/s10704-017-0182-6, 1-12 (2017).
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24. Interior-induced Fracture Mechanism of High Cleanliness Spring Steel (JIS SWOSC-V) in Very High Cycle Regime, Taku Miura, Takayuki Sakakibara, Takanori Kuno, Akira Ueno, Shoichi Kikuchi, Tatsuo Sakai, Key Engineering Materials, 664, 209-218 (2016).
25. Fatigue properties of high-strength steel in diesel oil, S. Kagami, A. Ueno, S. Miyakawa, N. Miyamoto, N. Ishibashi, B. Guennec, Procedia Structural Integrity, 2, 1738–1745 (2016).
26. A probabilistic model on crack initiation modes of metallic materials in very high cycle fatigue, Akiyoshi Nakagawa, Tatsuo Sakai, D. Gary Harlow, Noriyasu Oguma, Yuki Nakamura, Akira Ueno, Shoichi Kikuchi, Akiyoshi Sakaid, Procedia Structural Integrity, 2, 1199–1206 (2016).
27. Study on degradation of electrolyte membrane for PEFC, A. Ueno, T. Takane, F. Ueno, Procedia Structural Integrity, 2, 2323–2329 (2016).
28. Tensile Strength of Poly-p- Phenylene Benzobisoxazole (PBO) Fiber with Kinking Damage, Noriyo Horikawa, Yuki Kawano, Toshiro Miyajima, Yukihiro Nomura, Tooru Kitagawa, Akira Ueno, Akiyoshi Sakaida, Takao Mori, Procedia Structural Integrity, 2, 293–300 (2016).
29. A review on fatigue fracture modes of structural metallic materials in very high cycle regime, Tatsuo Sakai, Akiyoshi Nakagawa, Noriyasu Oguma, Yuki Nakamura, Akira Ueno, Shoichi Kikuchi, Akiyoshi Sakaida, International Journal of Fatigue, 93, 2, 339–351 (2016).
30. Effect of harmonic structure design with bimodal grain size distribution on near-threshold fatigue crack propagation in Ti–6Al–4V alloy, Shoichi Kikuchi, Takafumi Imai, Hiroki Kubozono, Yoshikazu Nakai, Mie Ota, Akira Ueno, Kei Ameyama, International Journal of Fatigue, 92, 2, 616–622 (2016).
1. “A New Cyclic-Decavanadate as Crown-Ether Type Ligands”, Y. Hayashi, Y. Kikukawa, M. Katayama, Y. Inada, The 10th International Vanadium Symposium (V10), Taipei, Taiwan, Nov. 2016.
2. “Determining Factors for Charge-Discharge Performances of Composite Electrode in Lithium-Ion Battery”, Y. Orikasa, H. Yamashige, H. Tanida, M. Katayama, K. Kitada, K. Z. Chen, Y. Inada, T. Ohta, Z. Siroma, S. Kato, H. Kinoshita, H. Arai, Z. Ogumi, Y. Uchimoto, PRiME 2016/230th ECS Meeting, Honolulu, USA, Oct. 2016.
3. “Distribution Analysis of Electrode Reaction of Lithium Manganese Oxide By Means of Time-Resolved XAFS Technique”, H. Yamagishi, R. Miyahara, M. Katayama, Y. Inada, PRiME 2016/230th ECS Meeting, Honolulu, USA, Oct. 2016.
4. “Coordination Chemistry of Cations and Anions for Polyoxovanadate Inorganic Cages”, Y. Hayashi, Y. Kikukawa, M. Katayama, Y. Inada, International Symposium on Pure & Applied Chemistry (ISPAC2016), Kuching, Malaysia, Aug. 2016.
5. “Biaxial and Triaxial Creep Damage Evaluation for Type 304 Stainless Steel”,
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Hiroki Kobayashi, Ryohei Ohki, Takamoto Itoh, Masao Sakane, International Conference on Multiaxial Fatigue & Fractre, Sevile, Spain, 1-3 June, 2016
6. “Fatigue Strength of SS400 Steel under Non-proportional Loading”, Takahiro Morishita, Takamasa Takaoka, Takamoto Itoh, International Conference on Multiaxial Fatigue & Fractre, Sevile, Spain, 1-3 June, 2016
7. “Creep-fatigue Life Evaluation of High Chromium Ferritic Steel under Non-proportional Loading”, Takahiro Morishita, Yuuya Murakami, Takamoto Itoh, Hiroyasu Tanigawa, Internationa Conference on Multiaxial Fatigue & Fractre, Sevile, Spain, 1-3 June, 2016
8. “Hydrogen Embrittlement Properties of S45C Carbon Steel under Multiaxial Loading”, Takaei. Yamamoto, Masanori Mitsune, Takeshi Takemura, Misato Doi, Noriko. Tsutsumi, Takamoto Itoh, International Conference on Multiaxial Fatigue & Fractre, Sevile, Spain, 1-3 June, 2016
9. “Creep Characteristic of Sn1.0Ag0.7Cu Lead-free Solders with Element Addition”, Fumio Ogawa, Hiroki Nagao, Takamoto Itoh, Masao Sakane, Mitsuo Yamashita, Hiroaki Hokazono, International Symposium on Structural Integrity Proceedings of 2016 International Symposium on Structural Integrity Tianjin, China, 26-30 May, 2016
10. “Development of Bending and Torsion Fatigue Testing Machine for Multiaxial Nonproportional Loading”, Takahiro Morishita, Takamoto Itoh, Masao Sakane, International Symposium on Structural Integrity Proceedings of 2016 International Symposium on Structural Integrity Tianjin, China, 26-30 May, 2016
11. “Low Cycle Fatigue Test of Lead Free Solders Using Small Sized Specimen”, Yutaka Konishi, Takamoto Itoh, Masao Sakane, Fumio Ogawa, Hideyuki Kanayama, 4th International Conference on Small Sample Test Techniques Shanghai, China, 12-14 October, 2016
12. “Development of Fatigue Testing Machine for Small Sized Specimen in Liquid Conditions”, Taiki Sugimoto, Takamoto Itoh, Masao Sakane, Chiaki Hisaka, 4th International Conference on Small Sample Test Techniques, Shanghai, China, 12-14 October, 2016
13. “Purity and Grain Size Effects of Creep Characteristics of Pure Aluminum for Electric Devices”, Norihiko Osada, Shogo Yoshitake, Fumio Ogawa, Takamoto Itoh and Masao Sakane, 9 th China-Japan Bilateral Symposium on High Temperature Strength of Materials Changsa, China, 16-20 October 2016
14. “Biaxial Tensile Creep Damage of Mod.9Cr-1Mo Steel Using Cruciform Specimen”, Ryosuke Itoh, Takumi Hikida, Fumio Ogawa, Takamoto Itoh, Masao Sakane, Shengde Zhang, 9 th China-Japan Bilateral Symposium on High Temperature Strength of Materials Changsa, China, 16-20 October 2016
15. “Development of Miniature Fatigue Testing Machine in Liquid Conditions”, Taiki Sugimoto, Takamoto Itoh, Masao Sakane, Chiaki Hisaka, 9 th China-Japan Bilateral Symposium on High Temperature Strength of Materials Changsa, China, 16-20 October 2016
16. “Low Cycle Fatigue and Creep-fatigue Test Technique Used Small Sized Specimen of Lead Free Solders”, Yutaka Konishi, Fumio Ogawa, Takamoto Itoh,
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Masao Sakane, Hideyuki, 9 th China-Japan Bilateral Symposium on High Temperature Strength of Materials Changsa, China, 16-20 October 2016
17. “Crack Initiation and Propagation Evaluation for Sn-5Sb Solder under Low Cycle Fatigue”, Noritake Hiyoshi, Takamoto Itoh, 9 th China-Japan Bilateral Symposium on High Temperature Strength of Materials Changsa, China, 16-20 October 2016
18. Characterization of RF Plasma Nitridated -(AlGa)2O3 for AlGaN Growth, T. Araki, A. Buma, N. Masuda, M. Oda, T. Hitora, and Y. Nanishi, The 4th International Conference on Light-Emitting Devices and Their Industrial Applications (LEDIA '16), Pacifico Yokohama, Yokohama, Kanagawa, Japan, 2016.5.19
19. Study on Nitridation of -(AlGa)2O3 Using Rf Plasma for AlGaN Growth A. Buma, N. Masuda, M.Oda, T. Hitora, T. Araki and Y. Nanishi, 35th Electronic Materials Symposium, , , 2016.7.7
20. Study on Nitridation of -(AlGa)2O3 Using Rf Plasma for AlGaN Growth, A. Buma, N. Masuda, T. Araki, Y. Nanishi, M. Oda, T. Hitora, The 18th International Conference on Crystal Growth and Epitaxy, (ICCGE-18), Nagoya Congress Center, Nagoya, Aichi, Japan, 2016.8.9
21. Study on Microstructure and Thermal Stability of Rf-Plasma Nitridated -(AlGa)2O3 Grown by Mist-CVD, A. Buma, N. Masuda, T. Araki, Y. Nanishi,
M. Oda, T. Hitora, International Workshop on Nitride Semiconductor 2016 (IWN2016), Hilton Orlando Lake Buena Vista, Orlando, Florida, USA, 2016.10.3
22. “Compliant MEMS Structure for Observation of Fixed Point under Tensile Deformation”, T. Ando, K. Ueno, and M. Nakajima, The 11th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems (IEEE-NEMS 2016), 2016.4
23. “Piezoresistive Rosette Gauge Taking into Account of Silicon Cubic Crystal Anisotropy”, T. Ando and T. Toriyama, Asia-Pacific Conference of Transducers and Micro-Nano Technology 2016 (APCOT2016), 2016.6
24. " Effects of Cleanliness and Induction Hardening on Very High Cycle Fatigue Properties of Low Alloy Forged Steel", Yiwen Yang, Nobuyuki Fujitsuna, Ryota Yakura, Mariko Matsuda, Taku Miura, Akira Ueno, Shoichi Kikuchi and Tatsuo Sakai, Proc. of the 6th International Conference on VHCF, USB, No.INS06, October 15–18, 2014, Chengdu, China.
25. "Micro scopic and Nanoscopic Observations of Metallographic Structures around Inclusions at Interior Crack Initiation Site in Very High Cycle Fatigue", Tatsuo Sakai, Noriyasu Oguma, Akinari Morikawa and Akira UENO, Proc. of the 6th International Conference on VHCF, USB, No.MIM02, October 15–18, 2014, Chengdu, China.
26. "Interior-induced Fracture Mechanism of Valve Spring Steel (JIS SWOSC-V) with High Cleanliness in Very High Cycle Regime", Taku Miura, Takayuki Sakakibara, Takanori Kuno, Akira Ueno, Shoichi Kikuchi and Tatsuo Sakai, Proc. of the 6th International Conference on VHCF, USB, No.MIM09, October 15–18, 2014, Chengdu, China.
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27. "Construction of Electronic Database on Very High Cycle Fatigue Properties for Metallic Materials", Tatsuo Sakai, Koushu Hanaki, Akiyoshi Sakaida, Kenji Okada, Yuki Nakamura, Kazutaka Mukoyama, Noriyasu Oguma, Takashi Matsumura, Yoshinobu Shimamura and Akira Ueno, Proc. of the 6th International Conference on VHCF, USB, No.MIM10, October 15–18, 2014, Chengdu, China.
28. "A Study on Very High Cycle Fatigue Properties of Bulk Amorphous Alloy in Rotating Bending", Akiyoshi Sakaida, Yanbin Zhang, Shoichi Kikuchi, Yoshihiko Yokoyama, Akira Ueno and Tatsuo Sakai, Proc. of the 6th International Conference on VHCF, USB, No.PSM14, October 15–18, 2014, Chengdu, China.
29. "Effects of Low Temperature Nitriding Process on the Very High Cycle Fatigue Properties of Ti-6Al-4V Alloy", Shoichi Kikuchi, Stefan Heinz, Dietmar Eifler, Yuta Nakamura and Akira Ueno, Proc. of the 6th International Conference on VHCF, USB, No.PSM04, October 15–18, 2014, Chengdu, China.
30. "Evaluation of the 4-points Bending Fatigue Properties of Ti-6Al-4V Alloy with Harmonic Structure Created by Mechanical Milling and Spark Plasma Sintering", Shoichi Kikuchi, Kotaro Takemura, Yosuke Hayami, Akira Ueno and Kei Ameyama, Proc. of the 3rd Japan-Chine Fatigue Symposium, November 6–8, 2014, Takayama, Japan.
31. " Kth estimation of aluminum die-casting alloy by means of area method ", Akira Ueno, Masahide Nishida, Susumu Miyakawa, Koji Yamada, Shoichi Kikuchi, Proc. of the APCFS/SIF-2014 International Congress, December 9-12, 2014, Sydney, Australia.
32. Microstructure And Mechanical Properties Of Sic Compacts Produced By Mechanical Milling And Spark Plasma Sintering, N. Z. B. Khalil, S. K. Vajpai, K. Ameyama, 9th International Materials Technology Conference & Exhibition (IMTCE2014), Kuala Lumpur (Malaisia), May 13-16, 2014.
1. , , , , 30
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Kasai N, Kojima C and Goto K. Metabolic and performance responses to repeated
sprint exercise in hypoxia in female athletes. 63rd Annual Meeting of American College
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Sumi D, Kojima C and Goto K. Impact of endurance exercise in hypoxia on metabolic
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1. Murakami, M., Miyachi, M., Iemitsu, M., Murakami, H., Kawano, H., Gando, Y., Kawakami, R., Ishii, K., Satoh-Asahara, N., Sanada. S. Indexes for Sarcopenia and Obesity Have The Difference Association with Metabolic Syndrome Risk Factors. 63th Annual Meeting of the American College of Sports Medicine. (USA, Boston. 2016. 06.02.) 2. Sanada,K., Ishii,K., Satoh-Asahara,N., Miyachi, M. Sarcopenia and Sarcopenic Obesity Derined from Anthropometric Simple Measurements. 2nd Asian Conference for Frailty and Sarcopenia,
3. Okutani, H., Suga, T.,, Isaka, T., Wakamiya, M., Nagano A. Morphological characteristics of the psoas major muscle of 110-m hurdlers. The British Association of Sport and Exercise Sciences Conference, UK, Nottingham, 11 . 4. Yuasa, Y., Kurihara, T. Isaka, T. Effects of the joint angles and muscular length on toe flexor strength in shod and barefoot athletes.10th International Conference on Strength Training. Ryukoku University, 12 .
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1. Effect of bimodal grain size distribution on fatigue properties of Ti-6Al-4V alloy
with harmonic structure under four-point bending, Shoichi Kikuchi, Yosuke
Hayami, Takayuki Ishiguri, Benjamin Guennec, Akira Ueno, Mie Ota, Kei
Ameyama, Materials Science and Engineering: A, 687, 27, 269–275 (2017).
2. Statistical fatigue strength evaluation and inelastic deformation generated during
static and cyclic loading in Ce-TZP/alumina nanocomposite: Part 1—in air
environment, Akira Ueno, Masahiro Nawa, Kosuke Omori, Naoki Kurizo, Journal
of the European Ceramic Society, 37, 2, 679–687 (2017).
3. Fracture surface topography analysis of the hydrogen-related fracture propagation
process in martensitic steel, Akinobu Shibata, Takahiro Matsuoka, Akira Ueno,
Nobuhiro Tsuji, International Journal of Fracture, doi:10.1007/s10704-017-0182-6,
1-12 (2017).
4. Interior-induced Fracture Mechanism of High Cleanliness Spring Steel (JIS
SWOSC-V) in Very High Cycle Regime, Taku Miura, Takayuki Sakakibara,
Takanori Kuno, Akira Ueno, Shoichi Kikuchi, Tatsuo Sakai, Key Engineering
Materials, 664, 209-218 (2016).
5. Fatigue properties of high-strength steel in diesel oil, S. Kagami, A. Ueno, S.
Miyakawa, N. Miyamoto, N. Ishibashi, B. Guennec, Procedia Structural Integrity,
2, 1738–1745 (2016).
6. A probabilistic model on crack initiation modes of metallic materials in very high
cycle fatigue, Akiyoshi Nakagawa, Tatsuo Sakai, D. Gary Harlow, Noriyasu
Oguma, Yuki Nakamura, Akira Ueno, Shoichi Kikuchi, Akiyoshi Sakaid, Procedia
Structural Integrity, 2, 1199–1206 (2016).
7. Study on degradation of electrolyte membrane for PEFC, A. Ueno, T. Takane, F.
Ueno, Procedia Structural Integrity, 2, 2323–2329 (2016).
8. Tensile Strength of Poly-p- Phenylene Benzobisoxazole (PBO) Fiber with Kinking
Damage, Noriyo Horikawa, Yuki Kawano, Toshiro Miyajima, Yukihiro Nomura,
Tooru Kitagawa, Akira Ueno, Akiyoshi Sakaida, Takao Mori, Procedia Structural
-112-
Integrity, 2, 293–300 (2016).
9. A review on fatigue fracture modes of structural metallic materials in very high
cycle regime, Tatsuo Sakai, Akiyoshi Nakagawa, Noriyasu Oguma, Yuki
Nakamura, Akira Ueno, Shoichi Kikuchi, Akiyoshi Sakaida, International Journal
of Fatigue, 93, 2, 339–351 (2016).
10. Effect of harmonic structure design with bimodal grain size distribution on
near-threshold fatigue crack propagation in Ti–6Al–4V alloy, Shoichi Kikuchi,
Takafumi Imai, Hiroki Kubozono, Yoshikazu Nakai, Mie Ota, Akira Ueno, Kei
Ameyama, International Journal of Fatigue, 92, 2, 616–622 (2016).
1. Effect of Bimodal Grain Size Distribution on Fatigue Properties of Ti-6Al-4V
Alloy with Harmonic Structure under Four-point Bending, S.Kikuchi, Y.Hayami,
T.Ishiguri, B.Guennec, A.Ueno, M.Ota, K.Ameyama, Materials Science and
Engineering A, 687, 269-275 , 2017.
2. Microstructure Evolution and Deformation Mechanisms of Harmonic Structure
Designed Materials, K.Ameyama, S.K.Vajpai, M.Ota, Materials Science Forum,
879, 145-150, 2017.
3.
, 64, 3-10, 2017.
4. High Temperature Mechanical Properties of Harmonic Structure Designed
SUS304L Austenitic Stainless Steel, M Nakatani, Y Fujiki, M Ota, SK Vajpai,
K.Ameyama, Materials Science Forum, 879, 2507-2511, 2017.
5. Microstructure Formation of High Pressure Torsion Processed ( + ) Two Phase
Stainless Steel, M.Ota, D.Nanya, S.K.Vajpai, K.Ameyama, K.Edalati, Z.Horita,
Materials Science Forum, 879, 1365-1368, 2017.
6. Core–shell structured Al-matrix composite with enhanced mechanical properties,
F.Gao, C.Xu, H.Zhang, W.Xiao, K.Ameyama, C.Ma, Materials Science and
Engineering A, 657, 64-70, 2016.
7. Effect of Bimodal Harmonic Structure Design on the Deformation Behaviour and
Mechanical Properties of Co-Cr-Mo Alloy, S.K.VAJPAI, C.SAWANGRAT,
O.YAMAGUCHI, O.P.CIUCA, K.AMEYAMA, Materials Science and Engineering
C, 58,1008-1015, 2016.
8. Microstructure and Properties of Beta Ti-Nb Alloy Prepared by Powder Metallurgy
Route using Titanium Hydride Powder, B.Sharma, S.K.Vajpai, K.Ameyama,
Journal of Alloys and Compounds, 656, 978-986, 2016.
9. Effect of Harmonic Structure Design with Bimodal Grain Size Distribution on
-113-
Near-threshold Fatigue Crack Propagation in Ti-6Al-4V Alloy, S.Kikuchi, T.Imai,
H.Kubozono, Y.Nakai, M.Ota, A.Ueno, K.Ameyama, International Journal of
Fatigue, 92,616-622, 2016.
10. Bulk Ni-W alloys with a composite-like microstructure processed by spark plasma
sintering: Microstructure and mechanical properties, T.Sadat, G.Dirras,
D.Tingaud, M.Ota, T.Chauveau, D.Faurie, S.K.Vajpai, K.Ameyama, Journal of
Materials and Design, 89, 1181-1190, 2016.
11. Harmonic Structure Design of Ti-6Al-4V Alloy by High Pressure Gas Milling
Process, T.WATANABE, R.MAEDA, K.KUROKAWA, M.OTA, S.K.VAJPAI,
K.AMEYAMA, Advances in Materials and Processing Technologies,
doi:10.1080/2374068X.2015.1127506, 2016.
12. Application of High Pressure Gas Milling Process to pure-Titanium for Harmonic
Structure Design, K.Kurokawa, H.Kawabata, T.WATANABE, M.Ota, S.K.Vajpai,
K.AMEYAMA, Advances in Materials and Processing Technologies,
doi:10.1080/2374068X.2015.1127536, 1-7, 2016.
13. Effect of Harmonic Microstructure on the Corrosion Behavior of SUS304L
Austenitic Stainless Steel, P.K.Rai, S.Shekhar, M.Nakatani, M.Ota, S.K.Vajpai,
K.Ameyama, K.Mondal, Metallurgical and Materials Transaction A, 47,
6259-6269, 2016.
14. Three-Dimensionally Gradient and Periodic Harmonic Structure for High
Performance Advanced Structural Materials, S.K.Vajpai, H.Yu, M.Ota, I.Watanabe,
K.Ameyama, J. Materials Transactions, 57, 1424-1432, 2016.
15. Enhanced ductility in harmonic structure designed SUS316L produced by high
energy ball mill and hot isostatic sintering, R.Zheng, Z.Zhang, M.Nakatani, M.Ota,
X.Chen, C.Ma, K.Ameyama, Materials Science and Engineering A, 674, 212-220,
2016.
16. Effect of Particle Shape on Dispersion Formation of Harmonic Microstructure of
Si3N4–ZrO2, L.Anggraini, Y.Natsume, K.Ameyama, Materials Science Forum,
864, 47-51, 2016.
17.
,80, 379-385, 2016.
18. Synthesis of Ternary Ti-25Nb-11Sn Alloy by Powder Metallurgy Route Using
Titanium Hydride Powder, B.Sharma, S.K.Vajpai, K.Ameyama, J. Materials
Transactions, 57, 1440-1446, 2016.
19. Preparation of Strong and Ductile Pure Titanium via Two-Step Rapid Sintering of
TiH2 Powder, B.Sharma, S.KVajpai, K.Ameyama, Journal of Alloys and
Compounds, 683, 51-55, 2016.
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20.
, 63, 731-738, 2016.
21. Application of Al-Si Semi-Solid Reaction for Fabricating Harmonic Structured Al
Based Alloy, N.Z.KHALIL, S.K.VAJPAI, M.OTA, K.AMEYAMA, J. Materials
Transactions, 57, 1433-1439, 2016.
22. Three-Dimensionally Gradient Harmonic Structure Design: An Integrated
Approach for High Performance Structural Materials, S.K.Vajpai, M.Ota, Z.Zhang,
K.Ameyama, Materials Research Letters, 4, 191-197, 2016.
23. A novel microstructure design for highperformance structural materials with high
strength and high ductility, S.K.Vajpai, H.Yu, M.Ota, K.Ameyama, Advances in
Materials and Processing Technologies, 2, 548-556, 2016.
1. Experimental Characterization of Crack Growth Behavior in Adhesive Interface
under Impact Loading Oshima, S., Ishida, H., Tanegashima, R., Kusaka, T.,
Takeda, T. Key Engineering Materials, 715, 116-121 2016.
2. Effect of Material Composition on Impact Energy Absorbing Capability of
Composite Laminates Haruna, R., Kusaka, T., Tanegashima, R., Takahashi, J.
Key Engineering Materials, 715, 147-152, 2016.
1. Multiaxial Fatigue Property of Ti-6Al-4V using Hollow Cylinder Specimen under
Push-pull and Cyclic Inner Pressure Loading, Takahiro Morishita, Takamoto Itoh,
Masao Sakane, Hiroshi Nakamura, Masahiro Takanashi, International Journal of
Fatigue, Vol. 87, No.6, 370-380, 2016,
2. Evaluation of multiaxial low cycle fatigue life for type 316L stainless steel notched
specimen under non-proportional loading, Takahiro Morishita, Takamoto Itoh,
Theoretical and Applied Fracture Mechanics, Vol. 84, 98-105, 2016.
3. Multiaxial Fatigue Strength of Type 316 Stainless Steel under Push-pull, Reversed
Torsion, Cyclic Inner and Outer Pressure Loading, Takahiro Morishita, Takamoto
Itoh, Zhenlong Bao, International Journal of Pressure Vessels and Piping, Vol.
139-140 (2), 228-236, 2016.
4.
, Vol.19,
No.3, 170-176, 2016.
5. Creep Characteristic of Sn1.0Ag0.7Cu Lead-Free Solders with Element Addition,
Fumio Ogawa, Hiroki Nagao, Takamoto Itoh, Masao Sakane, Mitsuo Yamashita,
-115-
Hiroaki Hokazono, Applied Mechanics and Materials, Vol. 853, 192-196, 2017.
6. Development of Bending and Torsion Fatigue Testing Machine for Multiaxial
Non-Proportional Loading, Takahiro Morishita, Takamoto Itoh, Masao Sakane,
Applied Mechanics and Materials, Vol. 853, 534-538, 2017.
Sn-8Zn-3Bi
Vol.66, No2 2017.
8. 9Cr-1Mo
Vol.66, No2
2017.
9. Analysis of Multiaxial Low Cycle Fatigue of Notched Specimens for Type 316L
Stainless Steel under Non-proportional Loading, Pasquale GALLO, Stefano
BRESSAN, Takahiro MORISHITA, Takamoto ITOH, Filippo BERTO, Theoretical
and Applied Fracture Mechanics, in-press, 2017.
10. Multiaxial creep damage and lifetime evaluation under biaxial and triaxial stresses
for type 304 stainless steel, Hiroki Kobayashi, Ryohei Ohki, Takamoto Itohb,
Masao Sakane , Engineering Fracture Mechanics, in-press, 2017.
1. Ionic Conduction in Lithium Ion Battery Composite Electrode Governs
Cross-sectional Reaction Distribution”, Y. Orikasa, Y. Gogyo, H. Yamashige, M.
Katayama, K. Chen, T. Mori, K. Yamamoto, T. Masese, Y. Inada, T. Ohta, Z.
Siroma, S. Kato, H. Kinoshita, H. Arai, Z. Ogumi, Y. Uchimoto, Sci. Rep., 6,
26382, 2016.
2.
, J. Vac. Soc. Jpn., 59(11), 293-300, 2016.
3. A Comparison on Ce3+ Luminescence in Borate Glass and YAG Ceramic:
Understanding the Role of Host's Characteristics”, A. D. Sontakke, J. Ueda, J. Xu,
K. Asami, M. Katayama, Y. Inada, S. Tanabe, J. Phys. Chem. C, 120(31),
17683-17691, 2016.
4. Particle Size Effect of Redox Reactions for Co Species Supported on Silica”, S.
Chotiwan, H. Tomiga, M. Katagiri, Y. Yamamoto, S. Yamashita, M. Katayama, Y.
Inada, J. Solid State Chem., 241, 212-218, 2016.
5. Inhomogeneous Distribution of Chemical Species in Lithium Nickel Oxide
Cathode of Lithium Ion Battery”, T. Uenoyama, R. Miyahara, M. Katayama, Y.
Inada, J. Phys. Conf. Ser., 712(1), 012143, 2016.
6. Oxidation Property of SiO2-Supported Small Nickel Particle Prepared by the
-116-
Sol-Gel Method”, Y. Yamamoto, S. Yamashita, N. Afiza, M. Katayama, Y. Inada, J.
Phys. Conf. Ser., 712(1), 012075, 2016.
7. In-Situ XAFS Study for Calcination Process of Cr Catalyst Supported on -Al2O3
and SiO2, T. Watanabe, K. Ikeda, M. Katayama, Y. Inada, J. Phys. Conf. Ser.,
712(1), 012073, 2016.
8. Time-Resolved Study on Dynamic Chemical State Conversion of SiO2-Supported
Co Species by Means of Dispersive XAFS Technique”, S. Chotiwan, H. Tomiga, S.
Yamashita, M. Katayama, Y. Inada, J. Phys. Conf. Ser., 712(1), 012061, 2016.
9. In Situ Time-Resolved Dispersive X-Ray Absorption Fine Structure Analysis of
BaTiO3-LiCoO2 Composites for Lithium Ion Batteries”, T. Teranishi, Y.
Yoshikawa, R. Miyahara, H. Hayashi, A. Kishimoto, M. Katayama, Y. Inada, J.
Ceram. Soc. Jpn., 124(6), 659-663, 2016.
1.
2016 11 .
2. SCM415
G. Benjamin
33 2016 11
3.
G. Benjamin 33
2016 11 .
4.
14
2016 10 .
5. Fatigue properties of high-strength steel in diesel oil, S. Kagami, A. Ueno, S.
Miyakawa, N. Miyamoto, N. Ishibashi, B. Guennec, 21st European Conference on
Fracture(ECF21), 20-24 June 2016, Catania, Italy.
6. A probabilistic model on crack initiation modes of metallic materials in very high
cycle fatigue, Akiyoshi Nakagawa, Tatsuo Sakai, D. Gary Harlow, Noriyasu
Oguma, Yuki Nakamura, Akira Ueno, Shoichi Kikuchi, Akiyoshi Sakaid, 21st
European Conference on Fracture(ECF21), 20-24 June 2016, Catania, Italy.
7. Study on degradation of electrolyte membrane for PEFC, A. Ueno, T. Takane, F.
Ueno, 21st European Conference on Fracture(ECF21), 20-24 June 2016, Catania,
-117-
Italy.
8. Tensile Strength of Poly-p- Phenylene Benzobisoxazole (PBO) Fiber with Kinking
Damage, Noriyo Horikawa, Yuki Kawano, Toshiro Miyajima, Yukihiro Nomura,
Tooru Kitagawa, Akira Ueno, Akiyoshi Sakaida, Takao Mori, 21st European
Conference on Fracture(ECF21), 20-24 June 2016, Catania, Italy.
9. SCM415
G. Benjamin
64 2016 5 .
1. K.Ameyama, “Unique Deformation Behavior of Harmonic Structure Materials
with High Strength and High Ductility”, TMS 2017, San Diego, USA, 2017.
2.26-3.2.
2. K.Ameyama, “Unique Deformation Behavior of Harmonic Structure Designed
Materials”, 1st International Hetero-Structure Materials Workshop, Kusatsu, Japan,
2016. 8.6
3. K.Ameyama, “Deformation Mechanism of High Performance Harmonic Structure
Designed Materials”, 8th International Conference on Physical and Numerical
Simulations of Materials Processing, Seattle, USA, 2016. 10.15.
4. K.Ameyama, “Harmonic Structure Design Approach for High Performance
Metallic Materials”, International Forum on Advanced Structural Materials 2016 &
the 5th Intermetallics Conference, Beijing, China, 2016. 10.11.
5. K.Ameyama, “Harmonic Structure Design for High Performance Structural
Materials”, Energy Materials Nanotechnology Meeting 2016, Prague, Czech,
2016.6.21.
6. K.Ameyama, “Microstructure evolution and deformation mechanisms of harmonic
structure designed materials”, International Conference on PROCESSING &
MANUFACTURING OF ADVANCED MATERIALS, Graz, Austria, 2016.6.1
7. Daiki Nanya, Mie Ota, Sanjay Kumar Vajpai, Kei Ameyama, Kaveh Edalati and
Zanji Horita, Microstructure Formation of High Pressure Torsion Processed ( + )
two phase stainless steel, International Conference on PROCESSING &
MANUFACTURING OF ADVANCED MATERIALS (THERMEC'2016),
2016.5.29-6.3,Graz, Austria
8. Kei Ameyama, Microstructure evolution and deformation mechanisms of harmonic
structure designed materials, International Conference on PROCESSING &
MANUFACTURING OF ADVANCED MATERIALS (THERMEC'2016),
2016.5.29-6.3, Graz, Austria
-118-
9. Masashi Nakatani, Yuya Fujiki, Mie Ota, Sanjay K. Vajpai and Kei Ameyama,
High Temperature Mechanical Properties of Harmonic Structure Designed
SUS304L Austenitic Stainless Steel, International Conference on PROCESSING &
MANUFACTURING OF ADVANCED MATERIALS (THERMEC'2016),
2016.5.29-6.3, Graz, Austria
10. Naoki Horikawa, Shun Okada, Mie Ota, Jinming Zhou, Stephen Hall, Dmytro
Orlov and Kei Ameyama, Structure-Property Optimization in Harmonic Structured
Nickel Fabricated Through Powder Metallurgy Route, 9th Pacific Rim
International Conference on Advanced Materials and Processing (PRICM9),
2016.8.1-5, Kyoto, Japan
11. Tomoyuki Kageyama, Nur Zalikha Khalil, Takayuki Sahara, Mie Ota, Kei
Ameyama and Chaoli Ma, Fabrication of Al-Si Harmonic Structure Composites
and their Mechanical Properties, 9th Pacific Rim International Conference on
Advanced Materials and Processing (PRICM9), 2016.8.1-5, Kyoto, Japan
12. Kazuki Masuda, Shuji Kosuga, Mie Ota, Jinming Zhou, Stephen Hall, Dmytro
Orlov and Kei Ameyama, Structure and Mechanical Properties in pure Ni with
Harmonic Structure via Electroless Plating, 9th Pacific Rim International
Conference on Advanced Materials and Processing (PRICM9), 2016.8.1-5, Kyoto,
Japan
13. Satoshi Matsuda, Guy Dirrasm Kei Ameyama, In situ X-ray diffraction study of
mechanical behavior of harmonic structure design Ti-6Al-4V alloy, 9th Pacific Rim
International Conference on Advanced Materials and Processing (PRICM9),
2016.8.1-5, Kyoto, Japan
14. Masashi Nakatani, Yuya Fujiki, Mie Ota, Sanjay Kumar Vajpai and Kei Aemayma,
High Temperature Mechanical Properties of Harmonic Structure Designed
SUS304L Austenitic Stainless Steel, 9th Pacific Rim International Conference on
Advanced Materials and Processing (PRICM9), 2016.8.1-5, Kyoto, Japan
15. Daiki Ueda, A. Hocini, Mie Ota, Sanjay K. Vajpai, D Tingaud, K.Ameyama and G.
Dirras, Microstructure evolution and Mechanical behavior under shear loadings of
Ti-25Nb-25Zr alloy, 9th Pacific Rim International Conference on Advanced
Materials and Processing (PRICM9), 2016.8.1-5, Kyoto, Japan
16. Mie OTA, Shun OKADA, Masashi NAKATANI, Sanjay Kumar VAJPAI, Kei
Ameyama, Cinzia MENAPACE, Alberto MOLINARI, High Temperature
Deformation Behavior of Harmonic Structured Pure Nickel, 9th Pacific Rim
International Conference on Advanced Materials and Processing (PRICM9),
2016.8.1-5, Kyoto, Japan
17. Shota Yokoyama , Ryo Maeda, Azziz Hocini, Ota Mie, Sanjay K Vajpai, David
-119-
Tingaud, Kei Ameyama, Guy Dirras, Influence of Thermo-Mechanical Treatments
on The Mechanical Behavior Under Tensile and Shear Loadings of
Ti-15V-3Cr-3Sn-3Al Alloy Processed by Powder Metallurgy Route, 9th Pacific
Rim International Conference on Advanced Materials and Processing (PRICM9),
2016.8.1-5, Kyoto, Japan
18. Sanjay K. Vajpai Kaveh Edalati
HPT ( + ) 2016
2016 5 22
19.
2016 2016 5 22
20. Sanjay K. Vajpai
SUS304L 2016
2016 5 22
21. B.Sharma Microstructure and Mechanical Properties of Ti-25Nb-25Zr Prepared by
Titanium Hydride Powder 2016 2016 5 22
22. AZ91D
2016
2016 5 25
23. SUS304L
2016 2016 5
25
1. Experimental Characterization of Crack Growth Behavior in Adhesive Interface
under Impact Loading, Oshima, S., Ishida, H., Tanegashima, R., Kusaka, T.,
Takeda, T., 9th International Symposium on Impact Engineering (ISIE 2016),
September 5-9, 2016 (Tainan, Taiwan).
2. Effect of Material Composition on Impact Energy Absorbing Capability of
Composite Laminates, Haruna, R., Kusaka, T., Tanegashima, R., Takahashi, J., 9th
International Symposium on Impact Engineering (ISIE 2016), September 5-9,
2016 (Tainan, Taiwan).
3. Effect of Material Composition on Energy Absorbing Capability of Composite
Laminates under Impact Loading, Haruna, R., Suzuki, T., Kusaka, T., Takahashi, J.,
10th Asian-Australasian Conference on Composite Materials (ACCM-10), October
16-19, 2016 (Busan, Korea).
-120-
4. Experimental Characterization of Dynamic Crack Growth Behavior in CFRP
Adhesive Interface, Oshima, S., Ishida, H., Kusaka, T., Takeda, T., 10th
Asian-Australasian Conference on Composite Materials (ACCM-10), October
16-19, 2016 (Busan, Korea).
5. Experimental Method for Determining Fracture Toughness in Adhesive Bonded
Joints under Impact Loading, Ishida, H., Oshima, S., Kusaka, T., Takeda, T., 31
International Congress on High-Speed Imaging and Photonics (ICHSIP-31),
November 7-10, 2016 (Osaka, Japan).
6. CFRP ,
, , , , 65 ,
( ), May 28-29, 2016.
7. R-q CFRP , , ,
, , , , , 65
, ( ), May 28-29, 2016.
8. Zanchor CFRP , , ,
, , , , , , ,
65 , ( ), May 28-29, 2016.
9. Zanchor-CFRP
, , , , , ,
, 41 , ( ), September 15-16,
2016.
10. CFRP , ,
, , , , 41 ,
( ), September 15-16, 2016.
11. CFRP Zanchor , ,
, , 41 , ( ),
September 15-16, 2016.
12. CFRP , ,
, M&M 2016 , ( ), October
8-10, 2016.
13. Zanchor CFRP , , ,
, , , , , , M&M 2016
, ( ), October 8-10, 2016.
14. Zanchor-CFRP , ,
, , , , , , , 54
, ANA ( ), October 24-26,
2016.
-121-
15. CFRP , , ,
, , , , 54 , ANA
( ), October 24-26, 2016.
16. Effest of Loading Rate on the Crack Growth Behavior in CFRP Adhesive Joints,
Yusop, H., Ghazali M.A.H, Kusaka, T., 92
, ( ), March 13-14, 2017.
17. C-R CFRP , ,
, , , , , 92
, ( ), March 13-14, 2017.
18. TASK CFRP , , ,
, 92 , (
), March 13-14, 2017.
19. CFRP , ,
, , , 92
, ( ), March 13-14, 2017.
20. Fanchor CFRP , , ,
, , , , , 8 ,
( ), March 16-18, 2017.
21. Zanchor-CFRP , ,
, , , , , , ,
8 , ( ), March 16-18, 2017.
22. CFRP , ,
, , , 8 , ( ), March
16-18, 2017.
23. CFRP C-R ,
, , , , , , 8
, ( ), March 16-18, 2017.
24. CFRP ,
, , Mohamad, N.A, , 8 ,
( ), March 16-18, 2017.
1. Biaxial and Triaxial Creep Damage Evaluation for Type 304 Stainless Steel,
Hiroki Kobayashi, Ryohei Ohki, Takamoto Itoh, Masao Sakane, International
Conference on Multiaxial Fatigue & Fracture, Sevile, Spain, 1-3 June, 2016.
2. Fatigue Strength of SS400 Steel under Non-proportional Loading, Akahiro
Morishita, Takamasa Takaoka, Takamoto Itoh, International Conference on
-122-
Multiaxial Fatigue & Fracture, Sevile, Spain, 1-3 June, 2016.
3. Creep-fatigue Life Evaluation of High Chromium Ferritic Steel under Non-
proportional Loading, Takahiro Morishita, Yuuya Murakami, Takamoto Itoh,
Hiroyasu Tanigawa, International Conference on Multiaxial Fatigue & Fracture,
Sevile, Spain, 1-3 June, 2016.
4. Hydrogen Embrittlement Properties of S45C Carbon Steel under Multiaxial
Loading, Takaei. Yamamoto, Masanori Mitsune, Takeshi Takemura, Misato Doi,
Noriko. Tsutsumi, Takamoto Itoh, International Conference on Multiaxial Fatigue
& Fracture, Sevile, Spain, 1-3 June, 2016.
5. Creep Characteristic of Sn1.0Ag0.7Cu Lead-free Solders with Element Addition,
Fumio Ogawa, Hiroki Nagao, Takamoto Itoh, Masao Sakane, Mitsuo Yamashita,
Hiroaki Hokazono, International Symposium on Structural Integrity, Tianjin,
China, 26-30 May, 2016.
6. Development of Bending and Torsion Fatigue Testing Machine for Multiaxial
Nonproportional Loading, Takahiro Morishita, Takamoto Itoh, Masao Sakane,
International Symposium on Structural Integrity, Tianjin, China, 26-30 May,
2016.
7. Low Cycle Fatigue Test of Lead Free Solders Using Small Sized Specimen,
Yutaka Konishi, Takamoto Itoh, Masao Sakane, Fumio Ogawa, Hideyuki
Kanayama, 4th International Conference on Small Sample Test Techniques,
Shanghai, China, 12-14 October, 2016.
8. Development of Fatigue Testing Machine for Small Sized Specimen in Liquid
Conditions, Taiki Sugimoto, Takamoto Itoh, Masao Sakane, Chiaki Hisaka, 4th
International Conference on Small Sample Test Techniques, Shanghai, China,
12-14 October, 2016.
9. Purity and Grain Size Effects of Creep Characteristics of Pure Aluminum for
Electric Devices, Norihiko Osada, Shogo Yoshitake, Fumio Ogawa, Takamoto
Itoh and Masao Sakane, 9 th China-Japan Bilateral Symposium on High
Temperature Strength of Materials, Changsa, China, 16-20 October 2016.
10. Biaxial Tensile Creep Damage of Mod.9Cr-1Mo Steel Using Cruciform
Specimen, Ryosuke Itoh, Takumi Hikida, Fumio Ogawa, Takamoto Itoh, Masao
Sakane, Shengde Zhang, 9 th China-Japan Bilateral Symposium on High
Temperature Strength of Materials, Changsa, China, 16-20 October 2016.
11. Development of Miniature Fatigue Testing Machine in Liquid Conditions, Taiki
Sugimoto, Takamoto Itoh, Masao Sakane, Chiaki Hisaka, 9 th China-Japan
Bilateral Symposium on High Temperature Strength of Materials, Changsa,
China, 16-20 October 2016.
-123-
12. Low Cycle Fatigue and Creep-fatigue Test Technique Used Small Sized Specimen
of Lead Free Solders, Yutaka Konishi, Fumio Ogawa, Takamoto Itoh, Masao
Sakane, Hideyuki, 9 th China-Japan Bilateral Symposium on High Temperature
Strength of Materials, Changsa, China, 16-20 October 2016.
13. Crack Initiation and Propagation Evaluation for Sn-5Sb Solder under Low Cycle
Fatigue, Noritake Hiyoshi, Takamoto Itoh, 9 th China-Japan Bilateral Symposium
on High Temperature Strength of Materials, Changsa, China, 16-20 October 2016.
14. SUS316
, , M&M2016
, , 2016 10 .
15. SUS304
, , M&M2016
, , 2016 10 .
16. S45C
, ,
M&M2016 , , 2016 10 .
17. , , ,
54 , , 2016 12 .
1. A New Cyclic-Decavanadate as Crown-Ether Type Ligands, Y. Hayashi, Y.
Kikukawa, M. Katayama, Y. Inada, The 10th International Vanadium Symposium
(V10), Taipei, Taiwan, Nov. 2016.
2. Determining Factors for Charge-Discharge Performances of Composite Electrode
in Lithium-Ion Battery, Y. Orikasa, H. Yamashige, H. Tanida, M. Katayama, K.
Kitada, K. Z. Chen, Y. Inada, T. Ohta, Z. Siroma, S. Kato, H. Kinoshita, H. Arai, Z.
Ogumi, Y. Uchimoto, PRiME 2016/230th ECS Meeting, Honolulu, USA, Oct.
2016.
3. Distribution Analysis of Electrode Reaction of Lithium Manganese Oxide By
Means of Time-Resolved XAFS Technique, H. Yamagishi, R. Miyahara, M.
Katayama, Y. Inada, PRiME 2016/230th ECS Meeting, Honolulu, USA, Oct. 2016.
4. Coordination Chemistry of Cations and Anions for Polyoxovanadate Inorganic
Cages, Y. Hayashi, Y. Kikukawa, M. Katayama, Y. Inada, International Symposium
on Pure & Applied Chemistry (ISPAC2016), Kuching, Malaysia, Aug. 2016.
5. ,
, , , 30
, , 2017 1 .
-124-
6. ,
, , , , , 30
, , 2017 1 .
7. XAFS ,
, , , , , , 30
, , 2017 1 .
8.
, , , , 6 CSJ
2016, , 2016 11 .
9.
, , , , 52 X , , 2016
10 .
10. , ,
, 52 X , , 2016 10 .
11. , , ,
, , 118 , , 2016 9 .
12. XAFS
, , , , 65 ,
, 2016 9 .
13. SR XAFS , ,
, , 19 XAFS , , 2016 9 .
14. DXAFS CO-NO Ni
, , , 19 XAFS , , 2016 9 .
15. , ,
, , 19 XAFS , , 2016 9 .
16. in-situ XAFS
Cu2O , , , ,
19 XAFS , , 2016 9 .
17. XAFS Ni(II) , ,
, , , 76 , , 2016 5
.
18. XAFS
, , , , , 76
, , 2016 5 .
1. RF-MBE InN , , ,
-125-
, , , 2017 64
, 2017 3 .
2017 3
10 BKC .
2016-095300 (P2016-095300A) 2016/05/26
.
” Introduction of Research Center for Energy-innovation Materials and Fuel-cell
Systems Research Center in Ritsumeikan Univ.”, 2016 International Symposium on
Novel and Sustainable Technology Tainan, Taiwan, October 6-7, 2016.
-126-
1. RF-MBE InN
X PANalytical XPertMRD
HITACHI S-4300SE CL
OXFORD MONO-CL2 EBIC OXFORD
1. RF-MBE InN GaN InGaN AlGaN
X
SEM CL
EBIC
2. Cu(In,Ga)Se2
3. ITO
ITO
UV
4.
5.
-127-
A. Buma, N. Masuda, T. Araki, Y. Nanishi, M. Oda, T. Hitora, Microstructure and
Thermal Stability of Rf-Plasma-Nitridated -(AlGa)2O3 Grown by Mist CVD,
phys. stat. sol. (b) (2016) .
J. Chantana, D. Hironiwa, T. Watanabe, S. Teraji, T. Minemoto, Flexible
Cu(In,Ga)Se2 solar cell on stainless steel substrate deposited by multi-layer
precursor method: Its photovoltaic performance and deep-level defects, Prog.
Photovolt. 24 (2016) 990-1000.
F. Jiang, C. Ozaki, Gunawan, T. Harada, Z. Tang, T. Minemoto, Y. Nose, S. Ikeda,
Effect of Indium Doping on Surface Optoelectrical Properties of Cu2ZnSnS4
Photoabsorber and Interfacial/Photovoltaic Performance of Cadmium Free
In2S3/Cu2ZnSnS4 Heterojunction, Thin Film Solar Cell, Chem. Mater. 28 (2016)
3283-3291.
J. Chantana, H. Arai, T. Minemoto, Trap-assisted recombination for ohmic-like
contact at p-type Cu(In,Ga)Se2/back n-type TCO interface in superstrate-type
solar cell, J. Appl. Phys. 120 (2016) 045302-1-8.
J. Chantana, H. Arai, Y. Niizawa, T. Minemoto, Ohmic-like contact formation at
rear interface between Cu(In,Ga)Se2 and ZnO:Al in lift-off Cu(In,Ga)Se2 solar
cell, Thin Solid Films 616 (2016) 17-22.
J. Chantana, T. Watanabe, S. Teraji, T. Minemoto, Influence of Minimum Position
in [Ga]/([Ga]+[In]) Profile of Cu(In,Ga)Se2 on Flexible Stainless Steel Substrate
on Its Photovoltaic Performances, Sol. Energy Mater. Sol. Cells 157 (2016)
750-756.
F. E. Farina, W. S. B. Azmi, and K. Harafuji, Ultraviolet-ozone anode surface
treatment and its effect on organic solar cells, Thin Solid Films 623 (2017) 72.
T. Araki, A. Buma, N. Masuda, M. Oda, T. Hitora, and Y. Nanishi,
Characterization of RF Plasma Nitridated -(AlGa)2O3 for AlGaN Growth, The
4th International Conference on Light-Emitting Devices and Their Industrial
Applications (LEDIA '16), Yokohama, Japan (2016.5).
A. Buma, N. Masuda, T. Araki, Y. Nanishi, M. Oda, T. Hitora, Study on
-128-
Nitridation of -(AlGa)2O3 Using Rf Plasma for AlGaN Growth, The 18th
International Conference on Crystal Growth and Epitaxy (ICCGE-18), Nagoya,
Japan (2016.8).
K. Tachi, S. Asagami, T. Fujii, T. Nagashima, T. Iwamoto, Y. Sato, N. Morita, R.
Sugie, S. Kamiyama, T. Araki and Y. Nanishi, Characterization of GaN Layer
Using THz Ellipsometry and Its Verification by Cross-Sectional Observation, The
18th International Conference on Crystal Growth and Epitaxy (ICCGE-18),
Nagoya, Japan (2016.8).
K. Komura, T. Araki, Y. Nanishi, T. Akasaka, Atomic Level C-AFM
Characterization of GaN Grown Under Spiral Mode, International Workshop on
Nitride Semiconductor 2016 (IWN2016), Orlando, USA (2016.10).
A. Buma, N. Masuda, T. Araki, Y. Nanishi, M. Oda, T. Hitora, Study on
Microstructure and Thermal Stability of Rf-Plasma Nitridated -(AlGa)2O3
Grown by Mist-CVD, International Workshop on Nitride Semiconductor 2016
(IWN2016), Orlando, USA (2016.10).
K. Harafuji, K. Hanya, Y. Onaru, Morphological Analysis of Solar Cells with
Pentacene Anode Buffer, Photovoltaic Science and Engineering Conference
(PVSEC-26) (2016.10).
W. S. B. Azmi, F. E. Farina, K. Harafuji, Interface Analysis of Ultraviolet-Ozone
Treated Anode Surface of Organic Solar Cells, Photovoltaic Science and
Engineering Conference (PVSEC-26) (2016.10).
InN
8
2016 5
RF-MBE GaN/Sapphire
Mg GaN 8
2016 5
85 2016 6 9
InN
2016 77
2016 9
EBIC
5
2016 11
-129-
DERI InN
EBIC GaN
C-AFM GaN InGaN
THz GaN
AlGaN -(AlGa)2O3
Lift-off Cu(In,Ga)Se2
NaF Cu2SnS3
NiO perovskite
WAFA Syakira Binti Azmi Crystal Structure Analysis on the Performance
Improvement of Organic Solar Cells with Ultraviolet-Ozone Treated Anode Surface
-130-
600 MHz
bciC
bciC
BciC BciC
a
BciC
BciC
BciC
1. H. Tamiaki, M. Teramura, Y. Tsukatani, "Reduction Processes in Biosynthesis of
Chlorophyll Molecules: Chemical Implication of Enzymatically Regio- and
Stereoselective Hydrogenations in the Late Stages of Their Biosynthetic Pathway,"
Bull. Chem. Soc. Jpn., 89, 161–173 (2016).
2. M. Teramura, J. Harada, H. Tamiaki, "In vitro stereospecific hydration activities of
the 3-vinyl group of chlorophyll derivatives by BchF and BchV enzymes involved in
bacteriochlorophyll c biosynthesis of green sulfur bacteria," Photosynth. Res., 130,
33–45 (2016).
3. M. Teramura, J. Harada, T. Mizoguchi, K. Yamamoto, H. Tamiaki, "In vitro assay of
BciC showing C132-demethoxycarbonylase activity requisite for biosynthesis of
chlorosomal chlorophyll pigments," Plant Cell Physiol., 57, 1048–1057 (2016).
-131-
1. M. Teramura, J. Harada, Tadashi Mizoguchi, H. Tamiaki, "Stereospecific hydratases
for bacteriochlorophyll synthesis regulate light-harvesting ability of chlorophyllous
self-aggregates in Chlorobaculum tepidum," SNCPP16, P-41 ( , 2016 6 ).
2. J. Harada, M. Teramura, T. Mizoguchi, Y. Tsukatani, K. Yamamoto, H. Tamiaki,
"Adaptation of green sulfur bacteria to limited-light conditions by transcriptional
regulation of two C3-vinyl hydratase genes, bchF and bchV," LH2016, 20 (
, 2016 8 ).
3. M. Teramura, J. Harada, T. Mizoguchi, H. Tamiaki, "Biosynthetic pathways of
bacteriochlorophylls working in light-harvesting chlorosomes," LH2016, 56 (
, 2016 8 ).
4. J. Harada, T. Mizoguchi, Y. Tsukatani, M. Yokono, A. Tanaka, K. Yamamoto, H.
Tamiaki, "Chlorophyllide a oxidoreductase identified as the third divinyl reductase,
specifically works in bacteriochlorophyll a biosynthesis," PS21, 3D.22 (
, 2016 8 ).
5. M. Teramura, J. Harada, T. Mizoguchi, H. Tamiaki, "Biochemical characterization of
C132-demethoxycarbonylase involved in the biosynthetic pathways of chlorosomal
chlorophyll pigments," PS21, 6B.5 ( , 2016 8 ).
6. J. Harada, Y. Shibata, M. Ryono, M. Teramura, T. Mizoguchi, K. Yamamoto, H.
Tamiaki, "The photosynthetic competences of chlorosomes containing
bacteriochlorophyll c, d, e, or f in the green sulfur bacterium Chlorobaculum
limnaeum mutants cells," ICARP2017 ( , 2017 3 ).
1.
7 PA24 ( , 2016 5 ).
2.
7
PB24 ( , 2016 5 ).
3.
BciC 2016
P-18 ( , 2016 7 ).
4.
2016 P-20 ( , 2016
7 ).
5.
-132-
10
2P003 ( , 2016 9 ).
6. Chlorobaculum tepidum
OP-15 ( , 2016 11 ).
7. Bacteriochlorophyll biosynthetic
pathways based on substrate specificities of enzymes for chlorosomal pigment
biosynthesis 58 ( , 2017 3 ).
8. J. Harada, T. Mizoguchi, Y. Kinoshita, C. Okada, K. Yamamoto, H. Tamiaki,
"Investigation for the function of C8-vinyl-bacteriochlorophyll e synthesized in the
brown-colored green sulfur bacteria cells under red-light illumination," 58
( , 2017 3 ).
-133-
LC-MS/MS DiNa/QSTAR Elite
Barrier-to-autointegration factor BAFEmerin N stor-Guillermo
Emery-Dreifuss EDMDLC-MS/MS
BAF DNABAF DNA
Emerin
Emerin EDMD
, , , , BAFDNA 39
2016 12 , , , , ,
BAF 392016 12
, , , Emerin 39 2016 12
, , , DNABAF 39 2016 12
, , , , , BAF 39 2016 12
-134-
5-HT3
2016/ 24
2016 6
-135-
Aika Shibata, Fumio Takahashi, Masahiro Kasahara, and Nobutaka Imamura, “Induction of maltose release by light in the endosymbiont Chlorella variabilis of Paramecium bursaria”, Protist, 1167, 468-478 (2016)Takashi Kawasaki, Asako Moriyama, Kazuya Nakagawa, and Nobutaka Imamura “Cloning and identification of saprolmycin biosynthetic gene cluster from Streptomyces sp. TK08046”, Biosci. Biotechnol. Biochem., 80, 2144-2150 (2016)
, , , ,
(2017 3 )
-136-
LC-MS/MS DiNa/QSTAR Elite
Halocynthia aurantium
C. elegans
H. aurantium
H. roretzi
UGL-1
UGL-2
Rha 1-3GlcNAc 1-3Gal 1-4(Fuc 1-3)GlcA 1-Cer UGL-2
C. elegans
Hisao Kojima, Ryota Shinohara, Saki Itonori and Masahiro Ito. Characterization of a Novel Rhamnose-containing Acidic Glycosphingolipid from the Ascidian Halocynthia aurantium. Journal of Oleo Science. doi : 10.5650/jos.ess16150. (in press)
. Caenohabditis elegans
1 sphk1 F53C3.13 392016/12/02
. Caenorhabditis elegansSIN3 39 2016/12/01
. C. elegans39
2016/12/02
-137-
RI
1. (PEPT1) 5
(5-ASA) Caco-2
system A
vitamin C (SVCT2)
(NaCT/mINDY)
5-ASA Caco-2 5-ASA
5-ASA PEPT1 5-ASA
Caco-2 RI [3H]glycylsarcosine (Gly-Sar) pH PEPT1
Na+ SLC13A5 (NaCT) HepaRG HepG2 PXR
midazolam rifampicin CAR phenobarbital NaCT mRNA
[14C] [3H]NaCT
glucagon NaCT
glucagon insulin NaCT mRNA
1. . 5- Caco-2
. 31 2016 5 2. .
system A31 2016 5
3. Tatsushi Yuri, Tomofumi Okada, Yusuke Kono, Tomohiro Terada, Takuya Fujita. Transport properties of 5-aminosalicylic acid derivatives conjugated with amino acids. International Symposium on Drug Delivery and Pharmaceutical Sciences: Beyond the History, 2017.3. Kyoto.
-138-
(ICP-IRE)
pn 5 MHz
STARC
1 13
A)
Y. Asahi, H. Tanigawa, T. Nishino, T. Furutsuka, and K. Suzuki, “Design and
fabrication of a 20 MHz pn-diode silicon ring resonator with in-plane vibration mode,”
Japanese Journal of Applied Physics, Vol. 55, pp.06GP02: 1-7, 2016.
B) T. Nishino, K. Baba, Y. Nakai, H. Tanigawa, and K. Suzuki, “Silicon MEMS actuator with no space gap between driving electrodes,” Proc. the 11th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems (IEEE-NEMS), C1L-F-3, Matsushima Bay and Sendai MEMS City, April 17-20,
-139-
2016. C)
MEMS
B-1-98, 2016 9
23
S. Nishio, R. Inoue, T. Furutsuka, and K. Suzuki, “Wireless power supply for a
vibratory MEMS Yagi-Uda antenna,” Proceedings of the 8th Integrated MEMS
Symposium, Hirado, The Japan Society of Applied Physics, 25pm3-D-1, Oct. 25,
2016.
T. Tsushima, Y. Asahi, H. Tanigawa, T. Furutsuka, and K. Suzuki, “Evaluation on
mechanical vibration of pn-diode ring actuator,” Proceedings of the 8th Integrated
MEMS Symposium, Hirado, The Japan Society of Applied Physics, 26am1-D-4, Oct.
26, 2016.
-140-
ECS400
NMR
NMR
Y. OKADA, S. YAMAMOTO, Y. NAMBA, T. MASUDA, K. SAKAMOTO,
“Internal Rotation of Cyclopentadienyl Rings in Ferrocene Derivatives”, Spectral
Anal. Rev., 4, 41-48 (2016)
S. Yamamoto, Y. Okada, “The interaction between (o-acetylphenyl)ferrocene and
metal ions”, Org. Commun., 10, 11 (2017)
Y. OKADA, A. NIOU and S. NAKANO, “Microwave irradiation effect on the ligand
exchange reaction between ferrocene and heterocycles”, Green Sustainable Chem.,
in press
Takeda Y, Seko A, Fujikawa K, Izumi M, Kajihara Y, Ito Y Effects of domain
composition on catalytic activity of human UDP-glucose:glycoprotein
glucosyltransferases. Glycobiology, 2016, 26 (9) 999-1006. Wang N, Seko A, Daikoku S, Kanie O, Takeda Y, Ito Y. Non-enzymatic reaction of
glycosyl oxazoline with peptides. Carbohydrate Research 2016, 436, 31-35.
Mesogenic Gold Complexes Showing Aggregation-Induced Enhancement of
-141-
Phosphorescence in Both Crystalline and Liquid-Crystalline Phases, Shigeyuki
Yamada, Yuki Rokusha, Ryo Kawano, Kaori Fujisawa, and Osamu Tsutsumi,
Faraday Discussions, in press (2016)
Photoluminescence from Au(I) Complexes Exhibiting Color Sensitivity to the
Structure of the Molecular Aggregates, Ryo Kawano, Osama Younis, Akihiro Ando,
Yuki Rokusha, Shigeyuki Yamada, Osamu Tsutsumi, Chem. Lett., 45, 66 68 (2016).
Nakano Y, Nasu M, Kano M, Kameoka H, Okuyama T, Nishizawa M, Ikeya Y.
Lignans from guaiac resin decrease nitric oxide production in interleukin 1 -treated
hepatocytes. Journal of Natural Medicines. . 2016 Oct 5. [Epub ahead of
print]
Kamino T, Shimokura T, Morita Y, Tezuka Y, Nishizawa M, Tanaka K. Comparative
analysis of the constituents in Saposhnikoviae Radix and Glehniae Radix cum
Rhizoma by monitoring inhibitory activity of nitric oxide production. Journal of
Natural Medicines. 70(2):253–259 (2016).
K. Kaneko, S. Yoshikai, H. China, T. Hanasaki, “Liquid Crystalline Supramolecular
Organization by the Adenine-Thymine Base Pair”, Chemistry Letters, 45(5),
514-516(2016.05).
Y. Okada and H. Imanaka, " Microwave Irradiation Effect on Ferrocenophane-forming
Cyclization Reaction”, XVIIth International Conference on Organomtallic
Chemistry, Melbourne, Austraria (2016).
Nanoparticulate Organic Illuminants: Controlling Luminescence Color by Size of
Particles, Osamu Tsutsumi, Kyosuke Nakamura, Manami Nakata, Shigeyuki
Yamada, EMN Meeting on Droplets 2016, San Sebastian, Spain,
Luminous Gold Complexes Exhibiting Color Sensitivity to Structure of Molecular
Aggregates, Osamu Tsutsumi, Osama Younis, Shigeyuki Yamada, 42nd International
Conference on Coordination Chemistry (ICCC2016), Brest, France, 7/7/2016
Ritsumeikan Strategy for Development of Highly Functionalized Materials: Control
of Hierarchical Structures of Materials, Osamu Tsutsumi, Science and Technology:
Future Challenges and Solutions 2016, University of Mysore, India, 8/8/2016
Aggregation-Controlled Luminescence in Mesogenic Gold Complexes in the Solid
and Liquid-Crystalline Phases, Osamu Tsutsumi, IITH Seminar, IITH, India,
8/11/2016
Takato FUKUI, Kosuke KANEKO, Yasushi OKUMURA, Hirotsugu KIKUCHI, Koji
FUKAO, Yoshinori TAKIKAWA, Hiroshi ORIHARA, and Tomonori HANASAKI,
“ER effect of low molecular dual frequency liquid crystals”, 8th Japanese-Italian
-142-
Liquid Crystal Workshop (JILCW2016), July 5-7, 2016(Kyoto, Japan).
Yuji OGIDA, Ayano MORI, Kosuke KANEKO, Tomonori HANASAKI, and Kazuo
KOJIMA, “The Synthesis and Physical Properties of Silica Nanoparticles Coated
with Mesogenic Groups”, 8th Japanese-Italian Liquid Crystal Workshop
(JILCW2016), July 5-7, 2016(Kyoto, Japan).
Kosuke KANEKO, Tomoka NODA, Yukihiro YOSHIMURA, Hiroshi ABE, and
Tomonori HANASAKI, “Synthesis and Characterization of Ionic Liquid Crystals
Based on DEME Cations”, 8th Japanese-Italian Liquid Crystal Workshop
(JILCW2016), July 5-7, 2016(Kyoto, Japan).
Sakie Yamauchi, Kosuke Kaneko, Kiyomi Fuchigami, Tomonori Hanasaki,
“Synthesis and physical properties of polymeric silane coupling agents having a
polymerizable group”, The 11th SPSJ International Polymer Conference (IPC2016),
December 13-16, 2016(Fukuoka, Japan).
Takahiro Yamamoto, Iori Maeda, Kosuke Kaneko, Kiyomi Fuchigami, Tomonori
Hanasaki, “Syntheses of amphiphilic triblock copolymers and preparation of porous
membranes”, The 11th SPSJ International Polymer Conference (IPC2016),
December 13-16, 2016(Fukuoka, Japan).
Yuki Kishi, Kosuke Kaneko, and Tomonori Hanasaki, “The Synthesis and the ER
Effect of the Liquid Crystalline Cyclosiloxane Derivatives with Side-on Mesogens”,
The 3rd Asian Conference on Liquid Crystals (ACLC 2017), February 13-15,
2017(Tainan, Taiwan).
Shunsuke TANAKA, Kosuke KANEKO, and Tomonori HANASAKI, “Synthesis of
Supramolecular Liquid Crystals containing Nucleic Acid Bases with Siloxane
Moiety and Investigation of Their Physical Properties”, The 3rd Asian Conference
on Liquid Crystals (ACLC 2017), February 13-15, 2017(Tainan, Taiwan).
Yuta Kitajima, Kosuke Kaneko, and Tomonori Hanasaki, “The Synthesis of the
Cyclic Siloxane Tetramers with the Side-on Chiral Mesogens and Their Physical
Properties”, The 3rd Asian Conference on Liquid Crystals (ACLC 2017), February
13-15, 2017(Tainan, Taiwan).
Yuji OGIDA, Ayano MORI, Kosuke KANEKO, Tomonori HANASAKI, and Kazuo
KOJIMA, “Synthesis of Silica Nanoparticles Coated with Mesogens and
Measurements of Their Physical Properties”, The 3rd Asian Conference on Liquid
Crystals (ACLC 2017), February 13-15, 2017(Tainan, Taiwan).
K. Kaneko, T. Fukui, Y. Okumura, H. Kikuchi, K. Fukao, Y. Takikawa, H. Orihara,
and T. Hanasaki, “Electrorheological Effect of Dual Frequency Nematic Liquid
Crystals”, The 3rd Asian Conference on Liquid Crystals (ACLC 2017), February
13-15, 2017(Tainan, Taiwan).
-143-
35 2016 9 3
2017 1 20
.
.
63 . . 2016 9 24 .
65 2016 5
26
65 2016
5 26
? 54
2016 5 28
Anukul Preeyanuch
2016
2016 9 5
2016 2016
9 5
2016
-144-
2016 9 5
Lebon Florian
2016
2016 9 7
66 2016
9 10
66 2016
9 10
Anukul Preeyanuch 66
2016 9 11
66 2016 9
11
White-Color Luminescence from a Single Polymer Material: Controlling the
Luminescent Color with External Stimuli, Osama Younis, Shigeyuki Yamada,
Osamu Tsutsumi, 65th Symposium on Macromolecules, Yokohama Campus,
Kanagawa University, Kanagawa, Japan, 2016 9 14
42 2016 9 30
N-
Katam Srinivas Ganesan Prabusankar 6 CSJ
2016 11 15
6 CSJ
2016 11 15
97 2017
3 16 19
97
2017 3 16 19
97 2017 3 16 19
-145-
Anukul Preeyanuch 97
2017 3 16 19
97 2017
3 16 19
NHC Katam
Srinivas Ganesan Prabusankar 97
2017 3 16 19
Younis Osama
97
2017 3 16 19
DEME
2016 2016
9 5 7
2016 2016
9 5 7
2016
2016 9 5 7
Shunsuke Tanaka, Saeka Yoshikai, Kosuke Kaneko, and Tomonori Hanasaki,
“Synthesis and Physical Properties of Supramolecular Liquid Crystals containing
Nucleic Acid Bases with Siloxane Moiety”, 97 2017
3 16 19 .
Syouya Niinami, Tomoka Noda, Syuu Tsuge, Kosuke Kaneko, Yukihiro Yoshimura,
Hiroshi Abe, Tomonori Hanasaki, “Synthesis and thermal properties of ionic liquid
crystal with some DEME based cations”, 97 2017 3
16 19 .
Photoluminescence Behavior of Low-Molecular-Weight and Polymer Materials
Containing Gold(I) Complexes as Luminophore, OSAMA Mohamed Younis
Abdelmottaleb,
Finkelstein
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(o- )
Photoluminescence Behavior of Polymer-Stabilized Liquid Crystals Containing
Gold Complexes Hussain Sami Aljuzayri
ER
side-on
DEME
ER
ER
-147-
SR
1) K. Hanya, Y. Onaru and K. Harafuji, ”Effect of pentacene anode buffer layer on
small-molecule organic solar cells”, Memoirs of the SR Center Ritsumeikan
University,18(2016)117.
2) S. Entani, M. Takizawa, H. Naramoto and S. Sakai, “NEXAFS study of
graphene/hexagonal boron nitride heterointerface”, Memoirs of the SR Center
Ritsumeikan University,18(2016)119.
3) A. Hata, M. Takizawa and T. Tanaka, “Chemical state analysis of 4H-SiC surface
polished under ultraviolet-ray excitation”, Memoirs of the SR Center Ritsumeikan
University,18(2016)121.
4) M. Takizawa, N. Iizuka and I. Fujieda, “Molecular orientation of a C8-BTBT thin
film grown under an external temperature gradient”, Memoirs of the SR Center
Ritsumeikan University,18(2016)123.
-148-
Mn Co Ni Cu
LiFePO4 LiMn2O4
1. “Ionic Conduction in Lithium Ion Battery Composite Electrode Governs
Cross-sectional Reaction Distribution”, Y. Orikasa, Y. Gogyo, H. Yamashige, M. Katayama, K. Chen, T. Mori, K. Yamamoto, T. Masese, Y. Inada, T. Ohta, Z. Siroma, S. Kato, H. Kinoshita, H. Arai, Z. Ogumi, Y. Uchimoto, Sci. Rep., 6, 26382 (2016).
2. “ X”, , , , ,
, J. Vac. Soc. Jpn., 59(11), 293-300 (2016). 3. “A Comparison on Ce3+ Luminescence in Borate Glass and YAG Ceramic:
Understanding the Role of Host's Characteristics”, A. D. Sontakke, J. Ueda, J. Xu, K. Asami, M. Katayama, Y. Inada, S. Tanabe, J. Phys. Chem. C, 120(31), 17683-17691 (2016).
4. “Particle Size Effect of Redox Reactions for Co Species Supported on Silica”, S. Chotiwan, H. Tomiga, M. Katagiri, Y. Yamamoto, S. Yamashita, M. Katayama, Y. Inada, J. Solid State Chem., 241, 212-218 (2016).
5. “Inhomogeneous Distribution of Chemical Species in Lithium Nickel Oxide Cathode of Lithium Ion Battery”, T. Uenoyama, R. Miyahara, M. Katayama, Y. Inada, J. Phys. Conf. Ser., 712(1), 012143 (2016).
6. “Oxidation Property of SiO2-Supported Small Nickel Particle Prepared by the Sol-Gel Method”, Y. Yamamoto, S. Yamashita, N. Afiza, M. Katayama, Y. Inada, J. Phys. Conf. Ser., 712(1), 012075 (2016).
7. “In-Situ XAFS Study for Calcination Process of Cr Catalyst Supported on -Al2O3 and SiO2, T. Watanabe, K. Ikeda, M. Katayama, Y. Inada, J. Phys. Conf. Ser., 712(1), 012073 (2016).
8. “Time-Resolved Study on Dynamic Chemical State Conversion of SiO2-Supported Co Species by Means of Dispersive XAFS Technique”, S. Chotiwan, H. Tomiga, S.
-149-
Yamashita, M. Katayama, Y. Inada, J. Phys. Conf. Ser., 712(1), 012061 (2016). 9. “In Situ Time-Resolved Dispersive X-Ray Absorption Fine Structure Analysis of
BaTiO3-LiCoO2 Composites for Lithium Ion Batteries”, T. Teranishi, Y. Yoshikawa, R. Miyahara, H. Hayashi, A. Kishimoto, M. Katayama, Y. Inada, J. Ceram. Soc. Jpn., 124(6), 659-663 (2016).
1. “A New Cyclic-Decavanadate as Crown-Ether Type Ligands”, Y. Hayashi, Y. Kikukawa, M. Katayama, Y. Inada, The 10th International Vanadium Symposium (V10), Taipei, Taiwan, Nov. 2016.
2. “Determining Factors for Charge-Discharge Performances of Composite Electrode in Lithium-Ion Battery”, Y. Orikasa, H. Yamashige, H. Tanida, M. Katayama, K. Kitada, K. Z. Chen, Y. Inada, T. Ohta, Z. Siroma, S. Kato, H. Kinoshita, H. Arai, Z. Ogumi, Y. Uchimoto, PRiME 2016/230th ECS Meeting, Honolulu, USA, Oct. 2016.
3. “Distribution Analysis of Electrode Reaction of Lithium Manganese Oxide By Means of Time-Resolved XAFS Technique”, H. Yamagishi, R. Miyahara, M. Katayama, Y. Inada, PRiME 2016/230th ECS Meeting, Honolulu, USA, Oct. 2016.
4. “Coordination Chemistry of Cations and Anions for Polyoxovanadate Inorganic Cages”, Y. Hayashi, Y. Kikukawa, M. Katayama, Y. Inada, International Symposium on Pure & Applied Chemistry (ISPAC2016), Kuching, Malaysia, Aug. 2016.
1. , , , , 30
, , 2017 1 . 2. ,
, , , , , 30, , 2017 1 .
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, , 2017 1 . 4.
, , , , 6 CSJ2016, , 2016 11 .
5. , , , , 52 X , ,
2016 10 . 6. , ,
, 52 X , , 2016 10 . 7. , ,
, , , 118 , , 2016 9 . 8. XAFS
-150-
, , , , 65 , , 2016 9 .
9. SR XAFS , , , , 19 XAFS , , 2016 9 .
10. DXAFS CO-NO Ni, , , 19 XAFS , , 2016 9 .
11. , , , , 19 XAFS , , 2016 9 .
12. in-situ XAFSCu2O , , , , 19 XAFS , , 2016 9 .
13. XAFS Ni(II) , , , , , 76 , , 20165 .
14. XAFS, , , , , 76
, , 2016 5 .
1. Siwaruk CHOTIWAN, “Operando XAFS Investigation on Redox Reactions of Cobalt Catalyst Supported on Silica”, 2016 9
2. X
2017 3 3. X
(I)2017 3
1. 2017 3
2. V2017 3
3. 2017 3
4. 2017 3
5. 2017 3
6. 2017 3
7. 2017 3
-151-
8. 2017 3
-152-
X
AIE (Aggregation-Induced
Emission)
( em = 380 740 nm)
10 m
1. Mesogenic Gold Complexes Showing Aggregation-Induced
Enhancement of Phosphorescence in Both Crystalline and Liquid-Crystalline Phases, Shigeyuki Yamada, Yuki Rokusha, Ryo Kawano, Kaori Fujisawa, and Osamu Tsutsumi, Faraday Discussions, in press (2016); DOI: 10.1039/C6FD00157B
2. Photoluminescence from Au(I) Complexes Exhibiting Color Sensitivity to the Structure of the Molecular Aggregates, Ryo Kawano, Osama Younis, Akihiro Ando, Yuki Rokusha, Shigeyuki Yamada, Osamu Tsutsumi, Chem. Lett., 45, 66–68 (2016).
1. Nanoparticulate Organic Illuminants: Controlling Luminescence Color by Size of Particles, Osamu Tsutsumi, Kyosuke Nakamura, Manami Nakata, Shigeyuki Yamada, EMN Meeting on Droplets 2016, San Sebastian, Spain,
2. Luminous Gold Complexes Exhibiting Color Sensitivity to Structure of Molecular Aggregates, Osamu Tsutsumi, Osama Younis, Shigeyuki Yamada, 42nd International Conference on Coordination Chemistry (ICCC2016), Brest, France, 7/7/2016
3. Ritsumeikan Strategy for Development of Highly Functionalized Materials: Control of Hierarchical Structures of Materials, Osamu Tsutsumi, Science and Technology: Future Challenges and Solutions 2016, University of Mysore, India, 8/8/2016
4. Aggregation-Controlled Luminescence in Mesogenic Gold Complexes in the Solid and Liquid-Crystalline Phases, Osamu Tsutsumi, IITH Seminar, IITH, India, 8/11/2016
-153-
1. 65
2016 5 26 2.
652016 5 26
3. ? 54
2016 5 28 4. Anukul
Preeyanuch 20162016 9 5
5. 2016
2016 9 5 6.
20162016 9 5
7. Lebon Florian2016
2016 9 7 8.
662016 9 10
9. 66
2016 9 10 10.
Anukul Preeyanuch 662016 9 11
11. 66
2016 9 11 12. White-Color Luminescence from a Single Polymer Material: Controlling
the Luminescent Color with External Stimuli, Osama Younis, Shigeyuki Yamada, Osamu Tsutsumi, 65th Symposium on Macromolecules, Yokohama Campus, Kanagawa University, Kanagawa, Japan, 20169 14
13. 42 2016
9 30 14. N-
Katam Srinivas Ganesan Prabusankar 6 CSJ2016 11 15
15. 6
-154-
CSJ 2016 11 15
1. Photoluminescence Behavior of Low-Molecular-Weight and Polymer
Materials Containing Gold(I) Complexes as Luminophore, OSAMA Mohamed Younis Abdelmottaleb,
1.
2.
3.
4.
5. Photoluminescence Behavior of Polymer-Stabilized Liquid Crystals Containing Gold Complexes Hussain Sami Aljuzayri
-155-
-157-
( )
Twelfth International Workshop on Supramolecular Nanoscience of Chemically
Programmed Pigments (SNCPP16)
SNCPP2016
1 8 3 48
100
SNCPP2016 BKC
Gang Zheng
Roie Yerushalmi
12HP
http://www.ritsumei.ac.jp/se/rc/staff/tamiaki/sncpp16/
-158-
( )
2017 1 20 2017 1 22
21
Soft/Hard2017 1 20 1 21 1
1 22 2
Dr. Sawangrat Choncharoen Dr. Lydia Anggraini
-159-
( )
5
Duke
18 Johns Hopkins Seth Blackshaw 10 2 Steve H. DeVries
EMBL Aahus
(OIC)
Steve H.DeVries
-160-
2016
2016 12 14 13 00 14 30
201
-161-
-162-
2017 3 24 2017 3 31
75
525-8577 1 1
600-8047 677-2
CONTENTS of No. 75, 2016
<Treatise>1. How much Academic English Vocabulary do they know? :
Towards the Development of Academic English Vocabulary Corpus for Life Science Students
………………………………………………………… Miho Yamashita, Mikio Nishizawa, Tsukasa Yamanaka ……… 1
2. A Consideration of Theories of Japanese People Confronting Globalization:
From the Contemporary Interpretation of Theories of Japanese Modernization of Soseki Natsume
………………………………………………………………………………………………… Tsukasa Yamanaka ……… 17
3. Growth of Al4C3,Fe3C and SiC ultrafine Grains covered with Carbon layer
……………………………………………………………………………………… Chihiro Kaito, Saito Yoshio ……… 31
4. Error analysis of English essays written by Japanese college students
…………………………………………………………………………………………………… Miho Yamashita ……… 43
5. Surface structure of polishing pads for polishing using composite abrasives
………………………………………………………………………………………… Yasuhiro Tani, Yu Zhang ……… 57
6. Development of drum-type manufacturing method for electroplated diamond wire tools
………………………………………………………………………………………… Yu Zhang, Yasuhiro Tani ……… 69
7. Evolutionary analysis for O-GlcNAcylated proteins by clustering method
………………………………………… Jun Tanaka, Masaoki Fujii, Ryuta Ueda, Hisao Kojima, Masahiro Ito ……… 81
Abstracts of Research Projects using Institute Experimental Apparatuses …………………………………………… 91
Other Activities …………………………………………………………………………………………………………… 157