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List of Publications and Lectures:
1) reviewed original papers
1) Electron Nuclear Double Resonance Study of Some Nitroxide Radicals Produced in
Spin Trapping,
Yashige Kotake, Masaharu Okazaki, Keiji Kuwata
J.Am.Chem.Soc., 99, 5198 (1977)
2) ENDOR Relaxation Study of the Effects of Intramolecular Cation Migration on the
Ion-pair System
Masaharu Okazaki, Keiji Kuwata
Bull.Chem.Soc.Jpn., 51, 385 (1978)
3) The ENDOR Spectrum of 1,7,7-Trimethylbicyclo[2.2.1]heptane-2,3-dione
Semiquinone in Solution
Reiko Tosa, Yashige Kotake, Masaharu Okazaki, Hideo Shikata, Keiji Kuwata
Bull.Chem.Soc.Jpn., 53, 1747 (1980)
4) Effects of Restricted Molecular Motion on the High-Resolution Solid-State 13C CP-
MAS NMR Spectrum of the Nitrile Group of the Stearonitrile-Urea Inculsion
Complex
M.Okazaki, A.Naito, C. A. McDowell
Chem.Phys.Lett., 100, 15 (1983)
5) High-Resolution Solid-State 13C CP-MAS NMR Spectra of Some �-Cyclodextrin
Inclusion Complexes with Nitriles.
Masaharu Okazaki, Charles A.McDowell
Chem.Phys.Lett., 102, 20(1983)
6) A Solid-State High-Resolution 13C NMR Study of Octaethylporphyrin and Its
Zinc(II) and Nickel(II) Metal Complexes Using CP-MAS Techniques
Masaharu Okazaki, Charles A.McDowell
J.Am.Chem.Soc., 106, 3185(1984)
7) A CP-MAS NMR Study of n-Alkane Included in Urea: Conformational
Dependences of the Substituent Effects for n-Substituted Alkanes.
Masaharu Okazaki, Charles A.McDowell
2
J. Mol. Struct., 118, 149 (1984)
8) Molecular Disposition of Inclusion Complexes of Three Aminoxyl Radicals with
�-Cyclodextrin in Aqueous Solution
Masaharu Okazaki, Keiji Kuwata
J.Phys.Chem., 88, 3163 (1984)
9) Anisotropic Rotational Diffusion of Di-tert-butylnitroxide in the Inclusion Complex
of �-Cyclodextrin in Aqueous Solution
Masaharu Okazaki, Keiji Kuwata
J.Phys.Chem., 88, 4181 (1984)
10) A Stopped-Flow ESR Study on the Reactivity of Some Nitroxide Radicals with
Ascorbic Acid in the Presence of �-Cyclodextrin
Masaharu Okazaki, Keiji Kuwata
J.Phys.Chem., 89, 4437 (1985)
11) Cell age-dependent changes in deformability and calcium accumulation of human
erythrocytes
Takeshi Shiga, Misuzu Sekiya, Nobuji Maeda, Kazunori Kon, Masaharu Okazaki
Biochim. Biophys. Acta., 814, 289-299 (1985)
12) Electron Spin Relaxation of Synthetic Melanin and Melanin-Containing Human
Tissues as Studied by Electron Spin Echo and Electron Spin Resonance
Masaharu Okazaki, Keiji Kuwata, Yoshiharu Miki, Sanae Shiga, Takeshi Shiga
Arch. Biochem. Biophys., 242, 197-205 (1985)
13) Application of Spin Trapping To Probe the Radical Pair Model in Magnetic-Field-
Dependent Photoreduction of Naphtoquinone in SDS Micellar Solution
Masaharu Okazaki, Shigeru Sakata, Ryusei Konaka, Takeshi Shiga
J.Am.Chem.Soc., 107, 7214-7216(1985)
14) Drift of an erythrocyte flow line due to the magnetic field
Experientia 42, 842-843 (1986).
Masaharu Okazaki, Nobuji Maeda, Takeshi Shiga
15) Product yield of magnetic-field-dependent photochemical reaction modulated by
electron spin resonance
Masaharu Okazaki, Takeshi Shiga
Nature, 323, 240-243 (1986)
16) Product yield-detected ESR on magnetic field-dependent photoreduction of
3
quinones in SDS micellar solution
Masaharu Okazaki, Shigeru Sakata, Ryusei Konaka, Takeshi Shiga
J.Chem.Phys., 86, 6792-6800 (1987)
17) Magnetic-Field-Dependent Spin Adduct Yield in the Photoreduction of
Naphthoquinones in SDS Micellar Solution
Masaharu Okazaki, Shigeru Sakata, Ryusei Konaka, Takeshi Shiga
J.Phys.Chem., 91, 1131-1137 (1987)
18) A Novel Method for Measuring the Erythrocyte Deformability, under Oscillatory
Shear Stress
Kazunori Kon, Junko Murakami, Masaharu Okazaki, Takeshi Shiga
Jpn.J. Physiol., 37, 337-340 (1987)
19) Effects of an inhomogeneous magnetic field on flowing erythrocytes
Masaharu Okazaki, Nobuji Maeda, Takeshi Shiga
Eur.Biophys. J., 14, 139-145 (1987)
20) Distribution of Erythrocyte in a Model Vessel Exposed to Inhomogeneous Magnetic
Fields.
Masaharu Okazaki, Kazunori Kon, Nobuji Maeda, Takeshi Shiga
Physiol. Chem. Phys. and Med. NMR, 20, 3-14 (1988)
21) Isotope Enrichment by Electron Spin Resonance Transitions of the Intermediate
Radical Pair
Masaharu Okazaki, Takeshi Shiga, Shigeru Sakata, Ryusei Konaka, Kazumi
Toriyama
J.Phys.Chem., 92, 1402-1404 (1988)
22) Two independent isotope effects and their magnetic field dependences in the
photoreduction of menadione in deuterium labeled SDS micellar solutions. A spin
trapping study
Masaharu Okazaki, Kazumi Toriyama, K. Nunome, H. Muto, T. Shiga
Can.J.Chem., 66, 1832-1835 (1988)
23) Ultra High-Resolution ESR Using a Reverse Micelle 33S,17O,and 15N Satellite
Lines of Fremy's Salt at Natural Isotopic Abundance
Masaharu Okazaki* and Kazumi Toriyama
J. Magn. Reson., 79, 158-162 (1988)
4
24) Determination and Kinetics of Platelet Adhesion on to Material Surfaces.
Norihiko Tateishi, Masaharu Okazaki, Takeshi Shiga
J. Membr.Sci., 41, 315-322 (1989)
25) Near UV-Induced Free Radicals in Ocular Lens, Studied by ESR and Spin
Trapping.
Junko Murakami, Masaharu Okazaki, Takeshi Shiga
Photochem. and Photobiol., 49, 465-473 (1989)
26) Alternation of Spin-Lattice Relaxation Times for Even and Odd Linear Alkane
Crystals: A High-Resolution Solid-State NMR Study
Masaharu Okazaki, Kazumi Toriyama
J.Phys.Chem., 93, 2883-2885 (1989); letter
27) Proton Perception by a System with an Amphiphilic Carboxylic Acid and a Water
Cluster
Masaharu Okazaki, Kazumi Toriyama
J.Phys.Chem., 93, 5027-5029 (1989); letter
28) Formation of Glassy Islands and Deterioration of Crystal Structure in Irradiated
Long-Chain n-Alkane Crystals Detected by High Resolution NMR.
Masaharu Okazaki, Kazumi Toriyama
Chem.Phys.Lett., 160, 21-24 (1989)
29) Isotope Effect on the Static Distortion and the Dynamics of Partially Deuteriated
Jahn-Teller Active Radical Cations: Cyclopropane-1,1-d2
Kaoru Matsuura, Keichi Nunome, M. Okazaki, K. Toriyama, Machio Iwasaki
J.Phys.Chem., 93, 6642-6645 (1989)
30) Highly efficient D/H scrambling and highly selective chlorination in �-irradiated
D-and H-octane mixture in freon 113: Trace back of transient processes by the
observation of D/H scrambling with high resolution nuclear magnetic resonance
Masaharu Okazaki, * Kazumi Toriyama, Keichi Nunome
J.Chem.Phys., 91, 2343-2347 (1989)
31) Selective Chlorination of Alkanes and Hydrogenation of Chlorofluoroethane with
High-g-values in the Radiolysis of their liquid mixture: High Resolution NMR
Study.
Kazumi Toriyama, Masaharu Okazaki, and Keichi Nunome
5
Radiat.Phys.Chem., 36, 445-451 (1990)
32) Effects of Trivalent Lanthanide Complexes on the Lifetimes of Methylene-Chain-
Linked Biradicals in Magnetic Fields
Yoshifumi,Tanimoto, Aiko,Kita, M. Itoh, M. Okazaki, R. Nakagaki, S. Nagakura
Chem.Phys.Lett., 165, 184-188 (1990)
33) Excimer Formation of Pyrene as a Probe to Investigate the Recombination of
Geminate Pairs: ODESR and Fluorescence Study of Dilute Pyrene in Squalane
Masaharu Okazaki, Yutaka Tai, R. Nakagaki, Keichi Nunome, Kazumi Toriyama
Chem.Phys.Lett., 166, 227-232 (1990)
34) Dynamic Process of Delayed Geminate Ion Pairs in X-Irradiated Squalane Solution
of �-Terphenyl: An ODESR Study
Masaharu Okazaki, Keichi Nunome, Kaoru Matsuura, Kazumi Toriyama
Bull.Chem.Soc.Jpn., 63, 1396-1401 (1990) =End of book 1=
35) Excimer formation of pyrene as a probe to investigate the recombination of
geminate pairs: effect of multicomponent recombination on Stern-Volmer plot
Masaharu Okazaki, Yutaka Tai, Keichi Nunome, Kazumi Toriyama
Chem.Phys.Lett., 171, 537-541 (1990)
36) Excimer Formation of Pyrene as a Probe to Investigate the Recombination of
Geminate Pair: the Effect of Charge Hopping Process on Fluorescence and ODESR
Spectra in X-Irradiated Ethylene Propylene Rubber Doped with Pyrene
Masaharu Okazaki, Kazumi Toriyama, Yutaka Tai, Keichi Nunome
Appl.Magn.Reson., 1, 213-229 (1990)
37) Boycott Effect with Vertical Cylinder for Paramagnetic Red Blood Cells under the
Inhomogeneous Magnetic Field
Masaharu Okazaki, Akitoshi Seiyama, K. Kon, N. Maeda, Takeshi Shiga
J.Coll. Interface Sci., 146, 590-593 (1991); notes
38) An ESR and NMR Study of the Radiolysis of n-Alkanes: Crystal Structure
Dependence
Kazumi Toriyama, Masaharu Okazaki, Keichi Nunome, Kaoru Matsuura
Radiat.Phys.Chem., 37, 15-21 (1991)
39) Electron spin resonance study on the structure and dynamics of propane cation
radical: The intrinsic form with a Cs symmetry
6
Kazumi Toriyama, Masaharu Okazaki, Keichi Nunome
J.Chem.Phys., 95, 3955-3963 (1991)
================end of file 1 =========
40) Solvent-Assisted NMR Images of Low-Density-Polyethylene Rods: Effects of
Casting and �-ray Irradiation on the Solid State Character
Masaharu Okazaki, Kazumi Toriyama
Appl.Magn.Reson., 2, 587-590(1991)
41) Effects of solution chemistry on the hydrothermal synthesis of kaolinite
R. Miyawaki, S. Tomura, S. Samejima, M. Okazaki, H. Mizuta, S. Murayama
and Y. Shibasaki,
Clay and Clay Minerals, 39, 498-508 (1991).
42) Formation Process of kaolinite from the amorphous mixture of silica and alumina,
R. Miyawaki, S. Tomura, K. Inukai, Y. Shibasaki, M. Okazaki, S. Samejima,
and S. Satokawa
Clay Science, 8, 273-283 (1992)
43) NAD(P)H-Dependent Chromium(VI) Reductase of Pseudomonas ambigua G-1:
a Cr(V) Intermediate Is Formed during the Reduction of Cr(VI) to Cr(III),
Tohru Suzuki, Naoyuki Miyata, Hiroyuki Horitsu, Keiichi Kawai,
Kazuhiro Takamizawa, Yutaka Tai and Masaharu Okazaki,
J. Bacteriology, 174, 5340-45 (1992)..
44) Optically detected Electron Paramagnetic Resonance and Fluorescence Study on
Geminate Ion Recombination in Low-density Polyethylene doped with Pyrene
Yutaka Tai, Masaharu Okazaki,* Kazumi Toriyama
J.Chem.Soc.FARADAY TRANS II, 88, 23 (1992)
45) Hyperfine versus relaxation mechanisms of the magnetic field effect on
recombination fluorescence of geminate pairs
M. Okazaki, Y. Tai, K. Nunome, K. Toriyama, S. Nagakura
Chem. Phys., 161, 177 (1992)
46) Selectively Weakened C-C �-Bond in Cation Radicals of Linear and Branched
Pentanes As Studied by Electron Spin Resonance
Kazumi Toriyama, Masaharu Okazaki
7
J.Phys. Chem., 96, 6986 (1992)
47) Mechanism of the Magnetic Field Effects on the Decay Rate of Chain-Linked
Biradicals
Y. Tanimoto,* Y. Fujiwara, S. Takamatsu, A. Kita, M. Itoh, M. Okazaki*
J.Phys.Chem., 96, 9844 (1992)
48) Detection of Free Radicals in UV-Irradiated Lens by Spin Trapping ESR,
J. Murakami, Y. Kozuka, M. Okazaki, & T. Shiga,
Lens and Eye Toxicity Research, 9, 447-454 (1992).
49) Paramagnetic attraction of erythrocyte flow due to an inhomogeneous magnetic
field, Takeshi Shiga, Masaharu Okazaki, Akitoshi Seiyama and Nobuji Maeda,
Bioelectrochemistry and Bioenergetics, 30, 181-188 (1993).
50) Formation Process of Kaolinite from Amorphous Calcium Silicate and Aluminum
Chloride,
R. Miyawaki, S. Tomura, K. Inukai, M. Okazaki, K. Toriyama, Y. Shibasaki and
M. Kamori,
Clay Science, 9, 21-32 (1993).
51) Charge Recombination Process in X-Ray Irradiated Pyrene-Doped Polystyrene as
Studied by Optically Detected Electron Spin Resonance and Magnetic Field
Dependence of the Recombination Fluorescence
Masaharu Okazaki, Yutaka Tai, Kazumi Toriyama
Bul.Chem.Soc.Jpn., 66, 748-754 (1993)
52) Pulse Mode Product-Yield-Detected ESR on the Photoreduction of Anthraquinone
in SDS Micellar Solution: Reaction Control by a Microwave Pulse
Masaharu Okazaki, Kazumi Toriyama
Bull.Chem.Soc.Jpn., 66, 1892-1896 (1993)
53) An ESR Study of the Distortion of Norbornane Radical Cation
Masaharu Okazaki, Kazumi Toriyama
J.Phys.Chem., 97, 8212-8216 (1993)
54) Solvent-Probe NMR Imaging of Low-Density Polyethylene Rods: A Layered
Structure Formed during the Molding Process
Masaharu Okazaki*, Kazumi Toriyama
Bull.Chem.Soc.Jpn., 66, 2515-2521 (1993)
8
55) A Laser Flash Photolysis Study of Effects of High Magnetic Fields on the Chain-
Linked Biradical Lifetime
Masahiro Mukai, Yoshihisa Fujiwara, Yoshifumi Tanimoto,* Masaharu Okazaki
J.Phys.Chem., 97, 12660-12662 (1993); letter
56) A laser flash photolysis study of the effect of intense magnetic fields on the
photoreaction of benzophenone in SDS micellar solution
Y. Fujiwara, M. Mukai, T. Tamura, Y. Tanimoto, and M. Okazaki
Chem.Phys.Lett., 213, 89-94 (1993)
57) Product Yield-Detected ESR Studies of Photochemical Reaction of a Bifunctional
Chain Molecule. Magnetic Field and Microwave Effects
M. Mukai, Y. Fujiwara, Y. Tanimoto,* Y. Konishi, and M. Okazaki*
Zeitschrift fur Physikalische Chemie,Bd., 180, 223-233 (1993)
58) Control of a Photochemical Reaction by Manipulating the Electron Spins of a
Transient Radical Pair as Evidenced by HPLC Analysis
M. Okazaki, Y. Konishi, and K. Toriyama
Chem.Lett., 737-740 (1994)
59) A Pulse-Mode Product-Yield-Detected ESR Study on the Dynamics of Radical Pair
Produced in the Photoreaction of Anthraquinone in SDS Micellar Solution
Nicolai E.Polyakov, Yoshinari Konishi, Masaharu Okazaki,* Kazumi Toriyama
J.Phys.Chem., 98, 10558-10562 (1994)
60) Product-Yield-Detected ESR Study on the Dynamic Behavior of Radical Pairs
Generated in Photoreduction of Acetylenic Ketones in SDS Micellar Solution
N.E. Polyakov, M. Okazaki,* K. Toriyama, T.V. Leshina, Y. Fujiwara, Y.
Tanimoto
J. Phys. Chem., 98, 10563-10567 (1994)
61) Radical Pair Dynamics Observed with Pulse-Mode Product-Yield-Detected ESR
M. Okazaki, N. E.Polyakov, Y. Konishi, and K. Toriyama
Appl. Magn. Reson., 7, 149-166 (1994)
62) Electron Spin Relaxation of Some Alkane Cation Radicals as an Indicator of
Dynamics Between the Distorted Structures
Kazumi Toriyama and Masaharu Okazaki
Appl.Magn.Reson., 7, 495-506 (1994)
63) Effect of griding of the starting material on hydrothermal synthesis of kaolinite,
9
R. Miyawaki, S. Tomura, M. Okazaki, S. Satokawa, and K. Sugiyama,
Clay Science, 9, 199-217 (1995).
64) Control of a Chemical Reaction by Spin Manipulation of the Transient Radical Pair
As Demonstrated for Isotope Enrichment
Masaharu Okazaki and Kazumi Toriyama
J.Phys.Chem., 99, 489-491 (1995) ; letter
65) Dynamic Properties of SDS Micelle Detected with "Radical Pair Probe" using the
Pulse-Mode Product Yield Detected ESR Technique.
Masaharu Okazaki, Nicolai E. Polyakov, Kazumi Toriyama,
J.Phys.Chem., 99, 6452-6456 (1995)
66) Photochemistry of Acetylenic Ketones in Micellar Solutions as Studied by Product-
Yield-Detected ESR and Transient Absorption Techniques.
N. E. Polyakov, M. Okazaki, H. Fukaya, Y. Fujiwaram, & Y. Tanimoto,
Photochem. Photobiol., 61, 545-551 (1995).
67) Substitution Effect on the Dynamics of Radical Pairs Produced in the
Photoreduction of Anthraquinone Derivatives,
Yoshinari Konishi, Masaharu Okazaki,* Kazumi Toriyama,
J. Phys. Chem., 99, 12540-12544 (1995).�
68) Radical-Pair Dynamics in the Photoreduction of Anthraquinone in SDS Micellar
Solution Detected by the Pulse-Mode Product-Yield-Detected ESR: Temperature and
Salt Dependence
N. E. Polyakov, M. Okazaki,* Y. Konishi , and K. Toriyama.
J.Phys.Chem., 99, 15108-15113 (1995).
69) Effect of Spin-Locking of the Intermediate Radical Pair on the Product-Yield-
Detected Electron Spin Resonance Spectrum for the Photoreduction of
Anthraquinone in SDS Micellar Solutions
Masaharu Okazaki* and Kazumi Toriyama,
J. Phys. Chem., 99, 17244-17250 (1995). =End book 2=
70) Effect of high magnetic field on the decay rate of chain-linked intramolecular
exciplex fluorescence
H. Cao, K. Miyata, T. Tamura, Y. Fujiwara, Y. Tanimoto, M. Okazaki, K. Iwai,
and M. Yamamoto,
Chem. Phys. Lett., 246, 171-175 (1995).
10
71) Control of a Photoreaction by ESR Transition of the Intermediate Radical Pair as
Evaluated by Liquid Chromatography
Masaharu Okazaki, Yoshifumi Tanimoto, Yoshinari Konishi, and Kazumi
Toriyama,
J. Phys. Chem., 100, 9403 (1996).
72) ESR study on the structure of the ethylene radical cation stabilized in frozen SF6
and some fluoroalkanes: an evidence for a twisted structure
Kazumi Toriyama and Masaharu Okazaki,
Appl. Magn. Reson.,11, 47-59 (1996).
73) Effect of high magnetic fields on reverse electron transfer process in an alfa -
cyclodextrin inclusion complex of phenothiazine-viologen chain-linked compound
Y. Fujiwara, T. Aoki, K. Yoda, H. Cao, M. Mukai, T. Haino, Y. Fukazawa,
Y. Tanimoto, H. Yonemura, T. Matsuo, and M. Okazaki,
Chem. Phys. Lett., 259, 361-367 (1996).
74) Control of a Photoreaction by Electron Spin Resonance (II): The Effect of Radical
Pair Lifetime on the Control Efficiency
Y. Konishi, M. Okazaki, and K. Toriyama,
Appl. Magn, Reson., 11, 135-50 (1996).
75) High Magnetic Field and Magnetic Isotope Effects on Lifetimes of Triplet
Biradicals Consisting of Two Equivalent Benzophenone Ketyl Linked by Methylene
Chains,
Yoshihisa Fujiwara, Takeshi Aoki, Takeharu Haino, Yoshimasa Fujiwara,
Yoshifumi Tanimoto, and Masaharu Okazaki,
J. Phys. Chem., 101,6842-49 (1997).
76) Contribution of Intersystem Recombination on the Lifetime of Radical Pair
Produced in Photoreduction of Benzophenone Derivatives in SDS Micelle as
Detected by Pulse-PYESR,
Y. Konishi and M. Okazaki,*
Appl. Magn. Reson., 14, 131-141 (1998).
77) A Pulse-Product-Yield-Detected ESR Study on the Photolysis of Nitronaphthalene-
Aniline Bifunctional Chain Molecule,
Y. Konishi, P. Maruthamuthu, M. Okazaki,* Y. Arakawa, and R. Nakagaki,*
Bull. Chem. Soc., Jpn., 72, 27-31 (1999).
11
78) Benezene Cation Radical in Mesoporous Silicate: EPR detection of unusually
stabilized Jahn Teller distortion,
Kazumi Toriyama* and Masaharu Okazakim,
Physical Chemistry and Chemical Physics, 1, 2607-2612 (1999).
79) Radical Pair Dynamics in Anionic Micelles with Different Alkyl Chain Length as
Studied by Pulse-Mode Product-Yield-Detected ESR,
Yoshinari Konishi and Masaharu Okazaki*,
Appl Magn Reson., 17, 597-608 (1999).
80) Synthesis of New Sn-Incorpolated Layered Double Hydroxides and Their Thermal
Evolution to Mixed Oxides,
S. Velu, K. Suzuki,* M. Okazaki, T. Osaki, S. Tomura, and F. Ohashi,
Chemistry of Materials, 11, 2163-72 (1999).
81) A monolayer complex of Cu2(OH)3C12H25SO4 directly precipitated from an
aqueous SDS solution,
M. Okazaki,* K. Toriyama, S. Tomura, T. Kodama, and E. Watanabe,
Inorg. Chem., 39, 2855-2860 (2000).
82) Oxidative Steam Reforming of Methanol over CuZnAl(Zr)-Oxide Catalysts for the
Selective Production of Hydrogen for Fuel Cells: Catalyst Characterization and
Performance Evaluation
S. Velu, K. Suzuki, M. Okazaki, M.P. Kapoor, T. Osaki, and F. Ohashi,
J. Cat., 194, 373-384 (2000).
83) Supercage effect in a photoreaction induced by mesoporous silica,
Masaharu Okazaki,* Yoshinari Konishi, and Kazumi Toriyama,
Chem. Phys. Lett., 328, 251-6 (2000).
84) Trapped Hydrogen Atoms Radiolytically Formed in Natural and Synthetic
Kaolinites: An Electron Spin Resonance Study
Kazumi Toriyama,* A. Lund, Masaharu Okazaki,
Phys. Chem. Chem. Phys., 2, 4697-4701 (2000).
85) Nanotube effect on a liquid phase photoreaction in mesoporous silica,
Y. Konishi, M. Okazaki*, K. Toriyama, and T. Kasai,
J. Phys. Chem., B, 105, 9101-6 (2001).
86) Mechanism of the magnetic field dependence for the liquid phase photoreaction in
the nanotube of MCM-41.,
12
M. Okazaki*, K. Toriyama, K. Oda, and T. Kasai,
Phys. Chem. Chem. Phys., 4, 1201-5 (2002).
87) Synthesis and characterization of CuO containing mesoporous silica spheres,
L. Wang,* S. Velu, S. Tomura, F. Ohashi, K. Suzuki, M. Okazaki, T. Osaki,
and M. Maeda,
J. Mat. Sci., 37, 801-806 (2002).
88) Characterization of MCM-41 mesoporous molecular sieves containing copper and
zinc and their catalytic performances in the selective oxidation of alcohols to
aldehydes,
S. Velu,* L. Wang, M. Okazaki, K. Suzuki, and S. Tomura,
Microporous and Mesoporous Materials, 54, 113-126 (2002).
89) Characterization of Zinc Gallate Phosphors
Yasuo Iida and Masaharu Okazaki,
Analytical Sciences 17 supplement, i1145 - i1147 (2002)
90) The solution flow through the nanochannel of MCM-41: a spin-probe study,
M. Okazaki,* K. Toriyama, N. Sawaguchi, and K. Oda,
Appl. Magn. Reson., 23, 435-444 (2003).
91) Inhomogeneous Distribution and Collective Diffusion of Solution Molecules in the
Nano-channel of Mesoporous Silica
Masaharu Okazaki* and Kazumi Toriyama
J. Phys. Chem., B, 107, 7654-7658 (2003).
92) ESR detection of the isotopic-site-preference in the Jahn-Teller distorted benzene
cation radical produced in MCM-41, silica gel and halocarbons
Kazumi Toriyama and Masaharu Okazaki
Chem. Lett., 33, 1020-1021 (2003).
93) Purification and characterization of an extracellular laccase of a fungus (family
Chaetomiaceae) isolated from soil.,
Takao Saito, Peng Hong, Katsuya Kato, Masaharu Okazaki, Hidetoshi Inagaki, Sumio
Maeda, Yoshiyuki Yokogawa,
Enzyme and Microbial Technology, 33, 520-526 (2003).
94) Spin-Probe Study on the Dynamics of Solution and Distribution of Solution
Molecules in the Nano-Channel of MCM-41
Masaharu Okazaki,* Kazumi Toriyama ,*, Naoya Sawaguchi, and Kiichi Oda
13
Bull,Chem, Soc., JPN., 77, 87-93 (2004)
95) Molecular packing of long-chained n-alkanes in the MCM-41 nanochannel as
probed by the free radicals produced by g-irradiation,
Kazumi Toriyama and Masaharu Okazaki,
J. Phys. Chem. B., 108, 12917- 12920(2004)
96) Isotope effect on the J-T distortion of partially deuteriated benzene cation radicals:
an experimental EPR and theoretical DFT theory,
Kazumi Toriyama, Masaharu Okazaki, Magnus Jansson , Anders Lund, Sten
Lunnel,
PCCP 6, 1658-1665 (2004).
97) Dynamics and packing mode of long-chained n-alkane molecules in the nano-
channel of MCM-41,
Masaharu Okazaki, Kazumi Toriyama, Sambandam Anandan
Chem. Phys. Lett., 401, 363-367 (2005).
98) Spin-Probe ESR Study on the Dynamics of Liquid Molecules in the MCM-41
Nanochannel: Temperature Dependence on 2-Propanol and Water,
Masaharu Okazaki and Kazumi Toriyama,
J. Phys. Chem. B., 109, 13180- 13185 (2005).
99) Entrapment of Organic Solutes by the Water Cage in the MCM-41 Nanochannel of
MCM-41,
Masaharu Okazaki and Kazumi Toriyama,
J. Phys. Chem. B., 109, 20068- 20071 (2005).
100) Spin-Probe ESR Study on the Entrapment of Organic Solutes by the Nanochannel
of MCM-41 in Benzene,
Masaharu Okazaki, Sambandam Anandan, Sindhu Seelan, Masakazu Nishida,
Kazumi Toriyama,
Langmuir, 23, 1215-1222 (2007).
101) Quenching of Collision between the Solute Molecules in the Nanochannel of
MCM-41: A Spin Probe ESR Study on the Alcoholic Solutions,
Masaharu Okazaki and Kazumi Toriyama,
J. Phys. Chem. C., 111, 9122-9129 (2007).
102) The Condensation Process of Alchol Molecules in the Nanochannel of MCM-41:
A Spin Probe ESR Study,
14
Masaharu Okazaki, Shinpei Iwamoto, Yoshimi Sueishi, and Kazumi Toriyama,
J. Phys. Chem. C., 112, 786-793 (2008).
103) The Condensation Process of Alcohol molecules on silica: MCM-41, SBA-15, and
Fumed Silica- A Spin Probe ESR Study,
Masaharu Okazaki, Sindhu Seelan, and Kazumi Toriyama, Applied Magnetic
Resonance, Special Issue, in press. (2008).
104) Transportation of Aqueous and Alcoholic Solutions through the Nanochannel of
MCM-41: A Spin Probe Electron Spin Resonance Study,
Masaharu Okazaki, Ping Jin, Kazutoku Ohta, Kazumi Toriyama,
J. Phys. Chem. C., 113, in press (2009).
105) Room Temperature Solution ENDOR of some Super Stable Fluorocarbon Radicals
Masaharu Okazaki, Taizo Ono, Kenji Komaguchi, The late Nobuaki Ohta, Haruhiko
Fukaya, Kazumi Toriyama*, Appl. Magn. Reson., 36, in press (2009).
(M.O. attends in 68 papers as the top author (55) or corresponding author(13))
Part II. Original Papers in Japanese
1) ȎšōƈDc>�-!:9dN4M!ōť·ē
àƮćǨśĹ�őŪȍĐlîñʼnőêǀŷsķì½ʼnǬóǭÔ
ƚÇƍÛ� țȜõ 11-21Ȓ1994ȓȖ
2) ÂȄť�ǃŒ ,/?4ǫwdzƹ�ƶƯĂēǣƏ!ǙÑ��Œ ,/ǃĽ
ȌŶþȀÓŇ�ÁŶşƂyîñʼnő
Journal of Ceramic Society of Japan, 110, 211-214 (2002).
Part III Review Articles
1) Attraction of the flow of paramagnetic erythrocytes by an inhomogeneous magnetic
field,
M. Okazaki, A. Seiyama, N. Maeda, and T. Shiga,
Int. J. Appl. Electromagnetics in Materials, 1, 173-177 (1990).
2) Asymmetric Distortion of Alkane Radical Cations as Studied by EPR spectroscopy:
the Role of Pseudo-Jahn-Teller Effects and Matrix Interactions,
K. Toriyama and M. Okazaki,
15
Acta Chemica Scandinavica, 51, 167-173 (1997).
3) Product Yield detected ESR and reaction control by spin manipulation,
Masaharu Okazaki
Recent Res. Devel. Phys. Chem., 2, 339-367 (1998).
4) Magnetic field effect for a reaction in mesoporous silica: Cage effect for the
photoreduction of xanthone in the nanotube of MCM-41
Masaharu Okazaki,1* Kazumi Toriyama,1 Kiichi Oda,1 and Toshio Kasai,2
Riken Review, NO44, 50-52 (2002).
5) Dynamics, flow motion and nanopore effect of molecules present in the MCM-41
nanopores- An overview,
Sambandam Anandan and Masaharu Okazaki,
Microporous and Mesoporous Materials, 87, 77-92 (2005).
Part IV Books
1) �ƉÎ!ŨűŻÞƨ �ƉÎ!Ɛȋ�Āý �ƉÎ�ų�Ũǘ�!Ǹ!ſu�
ŵ �ƉÎ�§Û°č ¯'�¤Ŀ ȑ�ƉÎ�Ũǘ�!ſu�ŵ
îñʼnő
�ų� æ�/ƉΤĿ�� ČǕ�àĶ¬¶nǮŤ�� ƣ�
� �-&��ȒĻxȓ1991ûȣƗșƕșƙ5ƙ� Ȓpp3-35ȓ
2) Effects of static magnetic fields on erythrocyte rheology,
T. Shiga, M. Okazaki, N. Maeda, and A. Seiyama,
In “Biological Effects of Magnetic and Electromagnetic Fields”, edited by S. Ueno,
Plenum Press, New York, pp 185-193, 1996.
3ȓƹ�ł� ESRŒ�,$°č±ǯł� ESRŒ
� îñʼnő
� ��ØƉď ~Ƹ�lƣÛ��ŧFiHk1996û
� ȟƕțƙȒ434-442Ȇȓ
4) Reaction Yield Detected ESR and Its Application to Control Chemical Reactions,
Masaharu Okazaki
in "Dynamic Spin Chemistry", S. Nagakura, H. Hayashi, and T. Azumi eds.,
Kodansha and John-Wiley 1998, chap.8.
5) Spin Chemistry in Japan, Applied Magnetic Resonance, Special Issue, edited by S.
16
Yamauchi and M. Okazaki, Springer, 2003.
6) Spin Probe and Spin Trapping Studies on the Magnetic Field Effects on Chemical
Reactions in the Nanospace of MCM-41,
Masaharu Okazaki and Kazumi Toriyama,
In Magneto-Science, M. Yamaguchi, Y. Tanimoto, eds, Kodansha and Springer,
Tokyo, 2006., Chapter 6 section 3.
Part V Proceedings
1) K. Kon, N. Maeda, M. Okazaki, M. Sekiya, and T. Shiga, Deformability of calcium
loaded red cells: Effect of chlorpromazine, J. Pharmacobio-Dyn., 8, S-107 (1985).
(Proceedings of the 7’th symposium on the Interaction between Biological
Membranes and Drugs, Tokyo)
2)ƔƆĒăîñʼnő�Ŷ�őČǕ� �ÞùEdǟý�!ƺêļ!Ðȅƚ
ƃ!ÞǯŒīĶR49f9gCkÛ�ǎĦȂ275-278(1986)Ȗ
2) îñʼnő�Ŷ�őČǕ�ƉÎq ��/øƉŭ�ÚďǙƺŰ!��
ȻȱɁȸȴȭȮȱȲƇƒ�ǖħ,MAG-86-197, pp7-13(1986).
3) S. Ueda, S. Kimura, M. Okazaki, and T. Shiga, Free radicals in the small intestine
with the temporary occlusion of the portal vein in rats, in Free Radicals in digestive
diseases, M. Tsuchiya, ed. Elsevier, pp237-241,1988.
4) J. Murakami, M. Okazaki, and T. Shiga, Spin trapping study on ocular lens: thiyl
radical produced by UV-irradiation,
Proceeding of the 4th Biennial General Meeting of the Society for Free Radical Research,
Kyoto, Japan, 9-13 April 1988, Eds. O. Hayaishi, E. Niki, M. Kondo, T. Yoshikawa,
Elsevier., Amsterdam., pp 829-832, 1989.
5) îñʼnőČǕ�TH]iȦ1º*cC:eæ°č ¯'�ƉΤĿȻȱɁ
ȸȴȭȮȱȲƇƒ�ǖħ,MAG-88-37, pp13-19(1988).
6)ČǕ�îñʼnő�Ŷ�őƺŕ æ�/ƉΤĿȻȱɁȸȴȭȮȱȲƇƒ�ǖ
ħ,MAG 90-12, pp23-30(1990).
7)îñʼnőƛìĭģ�Ŷ�őČǕ�oÈlƉÎ ,/ùƉďǙƺŰŏǼ
ǟý!�ǢȻȱɁȸȴȭȮȱȲƇƒ�ǖħ (ƋÄŒy� ȃŌÛ�ȓ ,MAG-92-99,
pp49-55(1992).
8)ČǕ�îñʼnőƛìĭģ�Ŷ�őƺŕ ¯'�oÈlƉÎ!¤ĿȻ
17
ȱɁȸȴȭȮȱȲƇƒ�ǖħ,MAG-93-75, pp67-73(1993).
9) T. Shiga, A. Seiyama, M. Okazaki, and N. Maeda, Attraction of paramagnetic
erythrocytes during flow in an inhomogeneous magnetic field, in Electricity and
Magnetism in Biology and Medicine, edited by Martin Blank, ph.D., San Francisco
Press, 1993, pp755-758. (Proceedings of The First World Congress for Electricity and
Magnetism in Biology and Medicine, Orlando, Florida, 1992)
10) J. Murakami, Y. Kozuka, M. Okazaki, and T. Shiga, Detection of free radicals in
UV-irradiated lens by spin trapping ESR, Lens and Eye Toxicity Research, 9, 447-454
(1992).
11) M. Okazaki, K. Toriyama, Y. Tai, and T. Shiga, An application of spin trapping to
the study of magnetic field dependent chemical reactions, Proceedings of Oji
International Conference on Spin Chemistry, pp258-263 (1991).
12) Y. Tai, M. Okazaki and K. Toriyama, An ODESR study on charge recombination
process in X ray irradiated polymers, ibid, pp379-386(1991).
13) M. Okazaki and K. Toriyama, Studies on the process of radiation damage of
polyethylene and alkanes by magnetic resonance spectroscopies: recent results.,
Proceedings of the Taniguchi Conference (division of polymer chemistry), pp32-35
(1992).
14) T. Shiga, M. Okazaki, N. Maeda, and A. Seiyama, Effects of static magnetic fields
on erythrocyte rheology, Biological Effects of Magnetic and Electromagnetic Fields, ed
S. Ueno, Plenum, New York, 1996.
15) îñʼnő§Û°č!ƉΤĿ�DUi§ÛƗșȚÃīĶų�ƉŌÛ�Ó
�ǎĦȂVol.106-9Ȓ1997ȓȖȒĤƬǏŞȓ
16) Masaharu Okazaki, Magnetic Field Effect on the Reaction of Radical pair
Intermediate in the Nano-channel of MCM-41: Distribution and Dynamics of the
Molecules in the Nano-space of MCM-41, Proceedings of the 7’th Meeting of the
Symposium on New Magneto-Science, pp 106-110 (2003).
Part VI Ĕ�Í»
1)� îñʼnő� �cC9œ�\4=gœ ,/°č�ĉ!´ƭďȒƗȚÍȓȢų
ēŨ±ǯ ,.ł��0/ȃØŁtǭ�Ȑ!űǎŻƩåƗțȟõƗțµ
62-68Ȓ1988)Ȗ
18
2)� ÷žƵlîñʼnőȏì½ƦĢȓïñmªȀ� �ƹ�ł�ȃØDUi�
Ȑƽƥ!Lj� ƗțȠõƗșµ pp20-24(1989)
3)� ÒvǓîñʼnő÷žƵlȏì½Ʀ� �ƹ�ł�ȃØDUi�Ȑƽƥ!
Lj�ȒƗȚÍȓȬƢ¯$ȪȫNJǚƹ�DY=Me!ŋǝ�œǵ�ǃ FDESR D
Y=Me ƗțȡõƗțµ 103-108(1990).
4)� îñʼnő÷žƵlȏì½Ʀ� �[d7Jfi!ġèƢŤè ,/¡§!
Å�Ȏ�ǃƭ NMRŒ ,/Ƈƒ Ɨțȡõ 9-10µpp379-387(1990).
5)� ÒvǓîñʼnő÷žƵlȏì½Ʀ� �ġèƢ ,.źų���ų49
iæ!�Ơ·ǣƏ!ƇƒȒƗ 4ÍȓȢUfi1Ś ���ãý[d7Jfi �
�/ ODESR�ȬƢNJǚƹ�!ƉΤĿ ƗȜȘõƗȚµpp65-73Ȓ1991ȓ
6)� ÷žƵlîñʼnőÒvǓ� �IJňĸħ!ƫġèƢďLJ�ŵDMfDźų
ƽƥ!Lj� ƗȜȘõƗ 4-5µpp195-202Ȓ1991).
7)� îñʼnő*êǀŷsǒĶƭĦ� �°čųēŨ±ǯł�¯$ƹ�ł� ESR
DY=Me!ãýŞƘØŒ1ŵ��ǃĽĩŒ � ƗȜșõƗ 10-11 µ
pp320-331(1992).
8) êǀŷsîñʼnőȏì½Ʀ� �SDS]Fe�ȯɀȵȼȰȹɀNJé�!�ǧ�°č
�ųē��cC:eæ!¥Żę¥!SeD PYESRŒ ,/ƇƒȢƥĝ̯$ pH
!¤Ŀ ƗȜȜõƗțµpp99-108Ȓ1995).
9)� îñʼnőêǀŷsȏì½Ʀ� �§Û°čqǸ����ų��DUiæ
ǹ�/Ƈƒ ƗȜȜõƗșȘµpp547-562Ȓ1995).
10)� êǀŷsîñʼnő� �]Fe��§Û°č ųē��qǸ�cC:eæ
!�Ơ· æ�/DUiǛǤſu�ŵ!âp � ƗȜȝõƗșșµ
pp591-600(1996).
11)� êǀŷsîñʼnőƴóǾØqÊƳl� �ȷȵȿȶȺȳȾɀ-ȯȷȽɀǡƠǴū�Ø
!��ǃ°č ǹ�/SeDųēŨ±ǯł� ESRŒ ,/Ƈƒ ƗȜȞõƗȟ
µpp373-380(1997).
12)� îñʼnőȏì½Ʀêǀŷs�ESRŒ ,/:kZiWcK=�ǫƝ�
Ø�!ſu�ŵ!Ƈƒ � ƗȜȠõƗȚµ,� PP203-211 (2000).
13) ÓŇĦăśĹ�ő�ŶȁÁŪȍĐlDzĴʼn¾îñʼnőêǀŷs
ȏì½Ʀ�ţň_GƓǸĸħ!·ē�§Û°čÎ���!�ŵĕƻ ǹ�/Ƈ
ƒ Ɨ 49õ No2115-125 (2000).
19
part VII ǃNj
șȓ:eB5^�ǙƺŰ!ňƭ�Ŷ�őĬ� ½�îñʼnőǹǒƦDz
ĹnȇØČǕ� �đשÛƗȝõ NO1pp8-11Ȓ1985)Ȗ
2)� [d7Jfi!ġèƢŀŇ1 NMR �ǁ/ġèƢ�ŴŃNo57pp29-33
Ȓ1993)Ȗ
3)� ƉŌ�ȐŒ ,/_GDAUK=ȈË!ġèƢ¯$�§Û!ƇƒJITA
News, No11, 1996, pp5-8. (úēȠûýôŃĕƻǽǵƼĄ²ǗDžĎȓ
4)� NMRŸ�Œ!źĭ�źëôŃĕƻ vol39No260Ȇ(1998)Ȗ
5) DUi§Û!ljų�źë
� îñʼnőôŃĕƻ� țȞȕNO10ȚȡȆ (1995)
6) ƉŌ�ȐŒ ,/_GDAUK=ȈË!ġèƢ¯$�§Û!Ƈƒ
îñʼnőJITA News, pp. 5-8, (1996). ȒúēȠûýǞÀŴŃƀƇƒŃ¦
�ƌƪƼĄȒôŃĕƻǽǵƼĄȓ²Ǘ ��/Ƈƒ�á!ǃNjȓ
7)DUi§Û!Ĩ��źë¹ôƇĕƻOakD 1997(No12)Ȗ
8) ƍÛĕƻƪyŨjƧ��ȣÓǀ�lĤěVdkcC:e1ų�ƟƤ!ĜDZ�
��ŵ�/ôŃĕƻ� 41ȧoȝ57-58 (2000).
9) NQ§ÛôÎ�!°č�ĉîòʼnő¹ôƇOakDNo 584, p2, (2000).
10)�ǃĽLJ�Ƈƒ>ekX îñʼnő� ȒǃĽLJ�Ƈƒ>ekXǵȓ,� \L
d2e4iL>fkBbivol16, 90-95 (2003);
jpart VIII Invited Lectures and Synposium Lectures
1) Research Symposium on “Magnetic Field Effects upon Dynamic Behavior and
Chemical Reactions of Excited Molecules”, Jan 9-10, 1987, Institute for Molecular
Science (S. Nagakura).
Magnetic Field Effects in Chemical and Biological Reactions Detected by the Spin
Trapping Technique, M. Okazaki, S. Sakata, R. Konaka, and T. Shiga,
Ehime Uviversity and Shionogi Pharmaceuticals. Abstract, 42-45.
2) The 9’th Ampere Summer School, Nobosibirsk, USSR
Reaction Control by the Magnetic Field and the ESR Transition (invited),
M. Okazaki , T. Shiga, S. Sakata, R. Konaka, and K. Toriyama.
20
3) �ØƍÛƇƒĔĮ½ 63ûýĈijƇƒ�
řſcC:eæ�ſu�ŵȢ°č±ǯł�¯$ƹ�ł� ESRŒ ,/Ƈƒ
îòʼnő�ØƍÛƇƒĔ1988û 12ı�
4) ĦǩƀƍƇǔƇƒ�ODESR�µ!\4=gœĀý�Úď!Ƈƒȣ
îòʼnőȏì½Ʀ÷žƵl1989û 1ı
5) ĦǩƀƍƇǔơ·ƇƒȤƇƒ��ùƉďƐ!Ŕď�DUiǸſu�ŵ ǹ�
/Ũű§ÛŻƇƒ ƗlÃƇƒ�1990û 12ıKKRŦŠ
“ODESR¯$ƹ�!ƉΤĿ!ǃĽ,.Ŏ+��ų49iæ!�Ơ·įǸ�÷”
îòʼnőȏì½Ʀ
6) Ɨ 502Ã�ØƍÛƇƒĔAg;5^
�¯$ġèƢ§Û°č ��/Ɖί$\4=gœ¤Ŀ�qǸ�cC:eæ!
I4N]K=D
îòʼnőúēțûȚı�ØƇ
7) Ohji International Conference on Spin Chemistry,
An Application of Spin Trapping to the Study of Magnetic Field Dependent Chemical
Reactions, M. Okazaki, K. Toriyama, & T. Shiga, 1991, July15-18. Tomakomai.
7) Ũű§ÛF]NkƗșȝÃDUiMcKXŒ1ŵ���§Û°č ��
/ƉΤĿ!Ƈƒîòʼnőúēțûșșı
8) Taniguchi Conference Solid State Reactions in Radiation Chemistry,
Studies on the Process of Radiation Damage of Polyethylene and Alkanes by
Magnetic Resonance Spectroscopies: Recent Results, M. Okazaki and K. Toriyama;
1992 June.
9) ĦǩƀƍƇǔơ·Ƈƒ�ÅſġèƢ§Û°č ƗȚÃƇƒ�
�Ufiȗ[dDJfiƜ ��/ȃØĚ¥ǣƏ—ƹ�ł� ESR ¯$ȬƢ£
ǚƹ�!ƉΤĿ� ,/Ƈƒ îòʼnőȏì½Ʀ; úēȝûșı
10) ƍƇǔBi[C5^jűƇBi[C5^� ·¸Bi[C5^
�SeD PYESR ,/DUi«Ǎ!ł� îòʼnőúēȝûțı
11) ĦǩƀǭŢȈËƇƒ��ØƉď Ů�ǑcC:eæ! ESR ǥƎ ,/°
č�ĉ!´ƭďîòʼnőêǀŷsȏì½Ʀúēȝûȟı
12) ĦǩƀǭŢȈËƇƒ��ØƉď ·¸Ů�Ǒ�DUiMcKXŒ ,/]
Fe��§Û°č!ƉΤĿ�qǸ�cC:eæ!I4N]K=D�!Ƈƒ
21
îòʼnőúēȝûȠı
13) űƇBi[C5^�Control of Photo-Chemical Reactions by Resonant
Micro-wave Irradiation , Masaharu Okazaki, October, 1993.
14) īĶôŃĕƻĚư«�Spin Probe TechnologyƇƒÕ¿�ƗȠÃÞ��
NMRŸ�Œ ,/ĸħ!4_kCi>îòʼnőúēȝûșșı
15) ŨǘƇhk=BbKX�]Fe��§Û°č ��/qǸ�cC:eæ!
ȃØDUi°ǜ ,/°č�ĉ îòʼnőúēȝûșșı
16) ĦǩƀǭŢȈËƇƒ��ØƉď �ǷBi[C5^�ųēŨ±ǯł� ESR
¯$ ESR ,/°č�ĉ îòʼnőúēȞûȞı
17) ĦǩƀǭŢȈËƇƒ��ØƉď Bi[C5^�SeD PYESRŒ�DUi
ğ� ,/°č�ĉ îòʼnőȏì½ƦúēȞûȠı
18) űƇBi[C5 �̂Ũű§ÛųŨ ��/DUi«ǍȒIIIȓ�SeD PYESR
Œ ,/DUi«Ǎ!ł� îòʼnőúēȟûȚı
19) Ɨ 53ÃîñAiV6ciD�Spin Locking Effect in Product-Yield-Detected
ESR , Masaharu Okazaki, Oct, 1995.
20) űƇBi[C5^�Ũű§ÛųŨ ��/DUi«ǍȒIIIȓ�DUiF
iBi>ĕƻ1ŵ��ĸħ�ƿ ǹ�/Ƈƒ îòʼnőúē 8ûȚı
21) űƇBi[C5^�ƉÎ ,/°č�ĉ�ĸħdžDŽ �DUiğ� ,/°
č�ĉ îòʼnőúē 8û 6ı
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�/ǭؤĿ!ǂŜ êǀŷsȔîñʼnőȏì½ƦúēȡûȞı
23) Ɨ 12ÃīĶų�ƉŌÛ��§Û°č!¯'�ƉΤĿ ȒĤƬǏŞȓîò
ʼnőúēȡûȝı
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25) īĶ��Û�ĻŘĠǩǏŞ���qǸ�cC:eæ!ȃØDUiğ� ,/
°č�ĉ�ųēŨ±ǯł�ȥȩȨŒ úēșȜûșȚıȡī
26) �ØƇƇƒ��Fc]K=DNQJakW�ŝř�°č ��/ƉΤĿ
r�ȢīĶ§Û��ØƍÛƇƒĔúēșȜûșȚıșȜī
27) ƗȟÃĨƉŌƍÛBi[C5 ,̂�MCM-41 NQJ`iPe�!cC:eæ
°č!ƉΤĿkNQƓǸ�!�ØI4N]K=D��Ø�÷— ȒŬȓŨǘj
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DUiÛ�ȒxǪÓÛȓȒĘĆȓ
30) Zavoisky-100 Conference, Symposium on Modern Development of Electron Spin
Resonance,
“The Collective Molecular Flow of Alcoholic Solutions through the Nanochannel of
MCM-41 as Detected by the Radical-Pair Probe and Spin Probe Techniques. (Physical
Technical Institute of Kazan, Russia, 9/24-28, 2007, invited)
31)ÓǻÓÛŴŃƍÛƇƒĔF]Nk�ȃØDUi�Ȑ�NQ§Û ȒƖvĤě
êľĤěr�ȓúēȚȚûȞıȚțīȒĘĆȓ
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