ΚΑΤΑΛΟΓΟΣ ETERO-ΑΝΑΦΟΡΩΝ (CITATIONS)

Οι αυτοαναφορές εξαιρούνται.Σημειώνονται επίσης (με διαφορετικό χρώμα) τα περιοδικά που δεν έχουν

Impact Factor, δηλ. είναι εκτός του καταλόγου SCI, αν και εμφανίζουν παραπομπές.Επιπλέον, δεν αναφέρονται επίσης οι πολλές αναφορές των εργασιών μας: (Α)

Στις διδακτορικές διατριβές στις οποίες είχα συμμετοχή, καθώς και σε αυτές στις οποίες ήμουν εξεταστής. (Β) Στις υπόλοιπες δημοσιεύσεις των Ρώσσων συνεργατών μας, που είναι γραμμένες στα ρώσσικα.

Πηγές: Science citation index, Elsevier (Article in Press), www.sciencedirect.com, www.pubs.acs.org, www.google.com, www.scopus.com, www.scholargoogle.com, web of science.

Α. Από επιστήμovες εκτός τoυ τμήματoς Χημείας, ΑΠΘ - Σύvoλo: 1801 (εκ των οποίων 1696 αναφέρονται σε επιστημονικά περιοδικά με IF, 39 σε επιστημονικά περιοδικά χωρίς IF, 5 σε Ρώσσικες εργασίες, 18 σε Κεφάλαια βιβλίων, 40 σε Πρακτικά διεθνών Συνεδρίων και 3 σε Ελληνικά Συνέδρια)

Α.1 Αναφορές σε δημοσιεύσεις επιστημονικών περιοδικών (σημειώνονται τα επιστημονικά περιοδικά που δεν έχουν IF, αλλά εμφανίζουν αναφορές)

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3) Flotation techniques for the separation of trace pollutants, Chimica Chronica (New Series), 15, 133-146, (1986).

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Cromo(III) por Flotacio de Precipitados», Univ. of Rio de Janeiro, Brazil, (Dec. 2003).

4) Ion flotation in environmental technology, Chemosphere, 16 (2&3), 623-631, (1987).1. Walters R.W. et al., J. Water Poll. Contr. Fed., 60 (6), 804 (1988).

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2. Torem M.L. and Rangel R.M., in Proc. XX Int. Miner. Proces. Congr., Aachen (Sept. 21-26, 1997), vol. 3, p. 447.

3. Bueno B.Y.M., in Ph.D. Thesis, «Aspectos Cimiticos da Remocio de Cromo(III) por Flotacio de Precipitados», Univ. of Rio de Janeiro, Brazil, (Dec., 2003).

4. Torem M.L. and Casqueira R.G., in «Flotacao Applicada a Remocao de Metais Pesados», Serie Tech. Ambiental (Report), No. 28, CETEM, (2003).

5. Torem M.L. and Scorzelli I.B., in Proc. of 58th Congr. Annual da ABM (2003), pp. 2629-2638.

6. Maciejewski P. and Walkowiak W., in Proc. XIX-th Conf. «Ars Separatoria», Zloty-Potok (Poland) (2004), pp. 102-106.

7. Maciejewski P. and Walkowiak W., Physico-chemcical Problems of Mineral Processing, 38, 139 (2004).

8. Medina B.Y. et al., in Proc. REWAS’ 04 (2005) - Global Symp. “Recycling Waste Treatment and Clean Technology”, pp. 1029-1038.

5) Separation of germanium and arsenic from solutions by flotation. International Journal of Mineral Processing, 21 (1-2), 83-92, (1987).

1. Khalid N. et al., Adsorptionp. Sci. & Tech., 16 (8), 655 (1998).2. Pan Z. et al., Eur. J. Miner. Proces. Envir. Prot., 3 (2), 243, (2003).3. Rubio J and Tessele F., in “Processos para tratamento de effluents na

mineracao”, 16th Chapter in the Book “Tratamento de Minerios”, 3rd ed., CETEM, Brasil, (2004), pp. 638-700.

4. Hernandez-Esposito A. et al., Chem. Eng. J., 118 (1-2), 69 (2006).5. Mohan D. and Pittman C.U. Jr., J. Haz. Mater., 142 (1-2), 1 (2007).6. Choong T.S.Y. et al., Desalination, 217 (1-3), 139 (2007).7. Kalderis D. et al., Desalination, 230 (1-3), 162 (2008).

7) Flotation of germanium from dilute solutions, Separation Science & Technology, 23 (4&5), 347-362, (1988).

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8) Adsorptionption of fatty acids on fine mineral particles as a purification method of industrial wastewaters. Toxicological & Environmental Chemistry, 20 (1), 425 (1989).

1. Rubio J. and Tessele F., Miner. Eng., 10 (7), 671 (1997).2. Rubio J and Tessele F., in “Processos para tratamento de effluents na

mineracao”, 16th Chapter in the Book “Tratamento de Minerios”, 3rd ed., CETEM, Brasil, (2004), pp. 638-700.

9) Electrolytic flotation of chromium from dilute solutions, Environmental Technology (Letters), 10, 601-612, (1989).

1. Enzminger J.D., Res. J. of Water Poll. Contr. Fed., 62 (4), 495 (1990).2. Shin M.S. et al., in Proc. Int. Conf. “Wasser Berlin”, organized by IWA,

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3. Ge J.T. et al., Separ. Purif. Tech., 36 (1), 33 (2004).4. Perez E.H., in Ph.D. Thesis, “Desarrolo de Alternativas de Tratamiento de

Aquas Residuales Industriales Mediante el Uso de Tecnologias Limpias Dirigados al Reciclaje Y/O Vabracior de Contaminantes”, Univ. of Valencia, Spain (2005).

10) Possibility of germanium recovery from fly ash, Chimica Chronica (New Series), 18, 85 (1989).1. Jandova J. and Vu Hong, in Proc. Int. Conf. “Metallurgy, Refractories and

Environment”, T.U. Kosice (Slovakia), pp. 107-112 (2001).2. Jandova J. et al., in Proc. 6th World Congress, “Integrated Resource

Management (Recycling 2000)”, Toronto, Canada, (June 5-9, 2000).3. Mouchtaris T. et al., Micr. & Mesop. Mater., 61 (1-3), 57 (2003).4. Kantiranis N. et al., Fuel, 85 (3), 360 (2006).5. Hernandez-Esposito A. et al., Chem. Eng. J., 118 (1-2), 69 (2006).

11) Parameters influencing flotation in the removal of metal ions, Int. J. of Envir. Studies (Sect. B: Envir. Science & Techn., 35, 183-196, (1990).

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2. Peng F.F. and Di P.K., Ind. Eng. Chem. Res., 33 (4), 922 (1994).3. Torem M.L. and Rangel R.M., in Proc. XX Int. Miner. Proces. Congr.,

Aachen (21-26 Sept. 1997), vol. 3, p. 447.4. Vite J. et al., Int. J. Envir. Poll., 8 (1-2), 201 (1997).5. Tokunaga S. and Uchiumi A., J. Nat. Inst. Mater. Chem. Res., 5 (1), 21

(1997).6. Charewicz W.A. et al., Separ. Sci. & Tech., 34 (12), 2447 (1999).7. Scorzelli I.B. et al., Miner. Eng., 12 (8), 905 (1999).8. Sabti H. et al., Envir. Progr., 21 (1), 63 (2002).9. Pacheco A.C.C. and Torem M.L., Separ. Sci. & Tech., 37 (15), 3599 (2002).10. Torem M.L. et al., in Proc. Anais – 10th Semin. de «Metals nao Ferrosos»

(2002), pp. 482-492.11. Torem M.L. and Casqueira R.G., in «Flotacao Applicada a Remocao de

Metais Pesados», Serie Technol. Ambiental (Report), No. 28, CETEM, (2003).

12. Bueno B.Y.M., in Ph.D. Thesis «Aspectos Cimiticos da Remocio de Cromo(III) por Flotacio de Precipitados», Univ. of Rio de Janeiro, Brazil, (Dec. 2003).

13. Pacheco A.C.C. and Torem M.L., in Proc. 58th Congr. Annual da ABM (2003), pp. 1367-1376.

14. Medina B.Y. et al., in Proc. REWAS’ 04 (2005) – Global Symp. “Recycling Waste Treatment and Clean Technology”, pp. 1029-1038.

15. Casqueira R.G. et al., Miner. Eng., 19 (13), 1388 (2006).

12) Separation of germanium from lead in solutions by flotation. Separation Science & Technology, 25 (4), 463-476, (1990).

1. Hernandez-Esposito A. et al., Chem. Eng. J., 118 (1-2), 69 (2006).2. Kalderis D. et al., Desalination, 230 (1-3), 162 (2008).

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13) Foam flotation of zeolites - application for zinc ion removal, Separation Science & Technology, 26 (3), 355-365, (1991).

1. Enzminger J.D., Water Envir. Res., 64 (4), 465 (1992).2. Churn C.C., Water Envir. Res., 65, 386 (1993).3. De Leeuw N.H. et al., Langmuir, 14 (20), 5900 (1998).4. Rubio J., Ch. in the book “Effluent Treatment in the Mining Industry”,

(Castro S.H., Vergara F. and Sanchez M.A., eds.), Univ. of Concepcion, Chile, pp. 335-364, (1998).

5. Feng D. et al., Hydrometallurgy, 56 (3), 359 (2000).6. Rubio J. and Tessele F., Miner. Eng., 10 (7), 671 (1997).7. Feris L.A. et al., Coal Prepar., 21 (5-6), 477 (2001).8. Walkarius A. et al., Langmuir, 17 (7), 2258 (2001).9. Cooper T.G. and De Leeuw N.H., Molec. Simul., 28 (6-7), 539 (2002).10. Mavrov V. et al., Desalination, 157 (1-3), 97-104, (2003).11. Marcu G. and Turtureanu A., Rev. Chim. - Bucharest, 54 (3), 259, (2003).12. Blocher C. et al., Water Res., 37 (16), 4018, (2003).13. Cooper T.G. and de Leeuw N.H., J. Mater. Chem., 14 (13), 1927 (2004).14. Rubio J and Tessele F., in “Processos para tratamento de effluents na

mineracao”, 16th Chapter in the book “Tratamento de Minerios”, 3rd ed., CETEM, Brasil, (2004), pp. 638-700.

15. Cooper T.G. and de Leeuw N.H., Langmuir, 20 (10), 3984 (2004).16. Ferris L.A. et al., Int. J. Miner. Process., 74 (1-4), 101 (2004).17. Walkarius A. et al., Langmuir, 22 (4), 1671 (2006).18. Mkhonto D. et al., Phys. & Chem. Miner., 33 (5), 314 (2006).

14) Ion flotation as a tool for speciation studies: selective separation in the system Cr3+/Cr6+, Toxicological & Environmental Chemistry, 31-32, 539-547, (1991).

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2. Walkarius A. et al., Langmuir, 22 (4), 1671 (2006).

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Meeting (Warrendale, Pennsylvania), (2000), pp. 157-160.6. Mouchtaris T. et al., Microp. & Mesopor. Mater., 61 (1-3), 57 (2003).7. Kantiranis N. et al., Fuel, 85 (3), 360 (2006).

17) Removal of copper ions during flotation of pyrite fines. Fresenius Environmental Bulletin, 1 (6), 450-455, (1992).

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3. Asthana et al., Process Biochem., 30 (18), 729 (1995).4. Abrantes L.M. and Costa M.C., Hydrometallurgy, 40 (1-2), 99 (1996).5. Chatterjee S. et al., Process Biochem., 31 (5), 457 (1996).6. Green-Pedersen H. et al., Envir. Tech., 18 (8), 807 (1997).7. El-Naggar A.H., Cytobios, 93 (373), 93 (1998).8. Pradhan S. et al., J. Microbiol. Biotech., 8 (1), 53 (1998).9. Bayat B., J. Haz. Mater., B95, 251 (2002).10. Mahramanlioglu M. et al., J. Fluorine Chem., 115 (1), 41 (2002).11. Mahramanlioglu M. et al., J. Envir. Sci. & Heal.-Part B’, 38 (6), 813,

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107) Biological treatment of Mn(II) and Fe(II) during groundwater treatment: kinetic consideration and products characterization. Water Research, 38 (7), 1922-1932, (2004).

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110) Diffusion kinetic study of cadmium(II) biosorption by Aeromonas caviae. Journal of Chemical Technology & Biotechnology, 79, 711-719, (2004).

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113) A hybrid flotation–microfiltration process for metal ions recovery. Journal of Membrane Science, 247, 29-35, (2005).

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115) Removal of Zinc by galvano-chemical treatment. Journal of Chemical Technology & Biotechnology, 80, 553-564, (2005).

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116) In-situ stabilization of toxic metals in polluted soils using phosphates: theoretical prediction and experimental verification Journal of Hazardous Materials, Β117, (1), 41-53, (2005).

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117) Application of flotation for the separation of metal-loaded resins. Separation Science & Technology, 40 (4), 861-876, (2005).

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119) Cadmium(II) biosorption by Aeromonas caviae: kinetic modeling. Separation Science & Technology, 40 (6), 1293-1313, (2005).

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121) Sorption of Arsenic oxyanions from aqueous solution on goethite: a study of the process modeling. Invited paper (for a Special Issue), Microchimica Acta, 151 (3-4), 269-275 (2005).

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122) Comparable evaluation of various commercially available aluminum-based coagulants for the treatment of surface water and for the post-treatment of urban wastewater. Journal of Chemical Technology & Biotechnology, 80, 1136-1147, (2005).

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123) Effective treatment and recovery of laurionite-type lead from toxic industrial solid wastes. Separation and Purification Technology, 48, 50-61, (2006).

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127) Removal of phosphates by pilot vertical flow constructed wetlands using a mixture of sand and dolomite as substrate. Ecological Engineering, 26, 293-303, (2006).

1. Reimo Alas, in M.Sc. Thesis, “Accumulation and asymmetry of nitrogen, phosphorus and carbon in the filter material of a horizontal subsurface flow constructed wetland”, Tartu Univ. (Finland), (2006).

2. Tanaka N. et al., J. Envir. Sci. Heal. – Part A’, 41 (10), 2221 (2006).3. Evans D.A. and Rusch K.A., Ecol. Eng., 30 (3) 250 (2007).4. Liu R. and Zhao D.Y., Chemosphere, 68 (10), 1867 (2007).5. Ramanaiah S.V. et al., Ecol. Eng., 31 (1), 47 (2007).6. Evans D.A. and Rusch K.A., J. Env. Eng.-ASCE, 133 (11) 1061 (2007).7. Ren Y. et al., Wuhan Univ. J. of Natural Sci., 12 (6), 1136 (2007).8. Zhang X.-L. et al., Fresenius Envir. Bull., 16 (11 B), 1468 (2007).9. Zhao Y.Q. et al., J. Envir. Sci. & Health - Part A’, 43 (1), 105 (2008).10. Park W.H. and Polprasert C., Ecol. Eng., 34 (1), 50 (2008).11. Tang X. et al., Envir. Eng. Sci., 25 (9), 1279 (2008).

64

12. Tang X. et al., Bioresource Tech., 100 (1), 227 (2009).

128) Comparative evaluation of conventional and alternative methods for the removal of arsenic from contaminated groundwaters, Reviews on Environmental Health, 21 (1), 25-43, (2006).

1. Xu T. et al., Env. Sci. & Tech., 41 (15), 5471 (2007).2. Liu G. et al., Water Res., 42 (8-9), 2309 (2008).

129) Wastewater reclamation by advanced treatment of secondary influents. Desalination, 195, 109-118, (2006).

1. Kuo J. and Kanada M., Water Envir. Res., 79 (10), 1474 (2007).2. An L.H. et al., Envir. Toxic. & Chem., 27 (1), 154 (2008).3. Dobson R.S. and Burgess, J.E., Miner. Eng., 20 (6), 519 (2008).4. Illueca-Munoz J et al., Desalination, 222 (1-3), 222-229 (2008).5. Lee B.H. et al., Desalination, 225 (1-3), 260 (2008).6. Gori R. and Caretti C., Water Sci. & Tech., 58 (1), 217 (2008).7. Chang, D.I. et al., Desalination, 236 (1-3), 152 (2009).8. Forrez I. et al., J. of Chem. Tech. & Biotech., 84 (1), 119 (2009).9. Rosal R. et al., Chemosphere, 74 (6), 825 (2009).

131) Use of iron and manganese oxidizing bacteria for the combined removal of iron, manganese and arsenic from contaminated ground waters. Invited paper, Water Quality Research Journal of Canada, 41 (2), 117-129, (2006).

1. Lange C.R. and Mendez-Sanchez N., Water Envir. Res., 79 (10), 1989 (2007).

2. Sun W. et al., Water Research, 42 (17), 4569 (2008).3. Hennebel T. et al., Trends in Biotechnology, 27 (2), 90 (2009).

132) Ecotoxicological properties of effluents treated using tertiary methods. Environmental Toxicology, 21 (4), 417-424 (Sp. Iss.), (2006).

1. An L.H. et al., Envir. Toxic. & Chem., 27 (1), 154 (2008).

133) The effect of coagulation on the toxicity and mutagenicity of reclaimed municipal effluents. Chemosphere, 65 (6), 1007-1018, (2006).

1. Grenoble Z. et al., Water Envir. Res., 79 (10), 1228 (2007).2. An L.H. et al., Envir. Toxic. & Chem., 27 (1), 154 (2008).3. Cao N. et al., Sci. of the Total Envir., 407 (5), 1588 (2009).

134) Persistent Organic Pollutants (POPs) in the conventional activated sludge treatment process: model predictions against experimental values. Chemosphere, 65, 1634-41, (2006).

1. Cai Q.-Y. et al., Chemosphere, 68 (9), 1751 (2007).2. Xia B. et al., Anal. Chim. Acta, 598 (1), 12 (2007).3. Yang Q. et al., J. of Senyang Jianzhu Univ. (Nat. Sci.), 23 (4), 647 (2007).4. Schmit C.G. et al., Water Envir. Res., 79 (10), 1297 (2007).5. Sweeney M.W. and Kabouris J.C., Water Envir. Res., 79 (10), 1551

(2007).

65

6. Schmit C.G. et al., Water Envir. Res., 79 (10), 1297 (2007).7. Lange C.R. and Mendez-Sanchez N., Water Envir. Res., 79 (10), 1989

(2007).8. Sweeney M.W. and Kabouris J.C., Water Envir. Res., 79 (10), 1551

(2007).

136) Comparison of single and dual media filtration in a full-scale drinking water treatment plant. Desalination, 213, 334-42, (2007).

1. Ahmad R. et al., Water Envir. Res., 80 (10), 978 (2008).

139) EAFD-loaded vitreous and glass-ceramic materials. J. Eur. Ceramic Soc., 27, 2317-2333, (2007).

1. Romero M. et al., J. of Mater. Sci., 43 (12), 4135 (2008).

140) Performance of experimental-scale vertical-flow constructed wetlands as affected by substrate, volume and frequency of application of simulated domestic sewage. Ecological Engineering, 31, 57-66, (2007).

1. Forquet N. et al., Ecological Engineering, 35 (1), 47 (2009).

142) Removal of arsenic compounds by chemisorption filtration. Journal of Mining Science, 43 (2), 212-220, (2007). Also in Theoretical Foundations of Chemical Engineering, 41 (5), pp. 772-779, (2007).

1. Borch T. et al., J. Envir. Eng., 134 (10), 835 (2008).

143) Potential ozone applications for water/wastewater treatment. Separation Science & Technology, 42 (7), 1433-1446, (2007).

1. Chu L.-B. et al., Process Safety & Envir. Prot., 86 (5), 389 (2008).2. Zhu H.T. et al., Separ. Sci. & Tech., 44 (1), 121 (2009).

146) Polyferric Silicate Sulphate (PFSiS): Preparation, characterization and coagulation behaviour. Desalination, 224, 307-316 (2008).

1. Zeng Y. and Park J., Coll. & Surf.-Part A’: Physicochem. & Engin. Asp., 334 (1-3), 147 (2009).

147) Investigation of sewage sludge stabilization potential by fly ash and lime additions. Journal of Hazardous Materials, 154 (1-3), 1052-1059 (2008).

1. Zhou J. et al., Water Envir. Res., 80 (10), 1241 (2008).

150) Polyferric Sulphate: preparation, characterization and application in coagulation experiments. Journal of Hazardous Materials, 155, 459-468 (2008).

1. Zeng Y. and Park J., Coll. & Surf.-Part A’: Physicochem. & Engin. Asp., 334 (1-3), 147 (2009).

66

67

Russian papers (5)

1) The biosorptive flotation of metals. Russ. Acad. Sci. Reports (Dokladii Akad. Nauk), 367 (5), 652 (1999).

1. Nebera V.P. and Solozhenkin P.M., The Eur. J. Miner. Proces. Envir. Protect., 2 (3), 220 (2002).

2) New trends in extraction of arsenic from diluted water solutions and pulps, Tcvetnye metally (Moscow), (No. 4), 65-68, (2000).

1. U.S. E.P.A. report 816-D-01-002 (Nov. 2001), “Implementation Guidance for Arsenic”, Appendix A. Available in: www.epa.gov/tio/download/remed/ 542r02004/arsenic_report_Appendix_A.pdf.

3) Removal of toxic metal ions from solutions using industrial solid products. Tcvetnye metally (Journal of Non-ferrous Metals), (No. 12), 45-49, (2000).

1. Paramguru R.K. et al., Miner. Process. Extr. Metall., 26 (1), 1 (2005).

4) Flotation of complex compounds of gold and silver. Zhurnal Prikladnoy Chimii (Russian Journal of Applied Chemistry), 73 (7), 1061-1065, (2000).

1. Deng H. et al., J. of Lanzhou Univ. (Nat. Sci.), 38 (2), 88 (2002).

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Α.2 A ναφορές σε άρθρα που δημοσιεύτηκαν σαν κεφάλαια βιβλίων (18)

1) Flotation: an overview of the process. In: “Flotation Science and Engineering” (K. Matis, ed.), M. Dekker, New York, pp. 1-44, (1995).

1. Liu T.-K. et al., Arab. J. Sci. Eng., 22 (1), 113 (1997).2. Ramirez J.A. et al., Chem. Eng. Sci., 54 (2), 149 (1999).3. Scorzelli I.B. et al., Miner. Eng., 12 (8), 905 (1999).4. Chabuka C. and Witika L.K., Afr. J. Sci. Tech., 1 (4), 36 (2001).5. Hirva P and Tikka Η.-Κ., Langmuir, 18 (12), 5002 (2002).6. Shi F. et al., Fluid-Particle Separ. J., 14 (3), 185 (2002).7. Bueno B.Y.M., in Ph.D. Thesis «Aspectos Cimiticos da Remocio de

Cromo(III) por Flotacio de Precipitados», Univ. Rio de Janeiro, Brazil, (Dec. 2003).

8. Chiang S.-H. et al., J. Chinese Inst. Chem. Eng., 34 (1), 7 (2003).9. Marcu G. and Turtureanu A., Revista de Chimie, 54 (4), 370 (2003).10. Charadej S. et al., Separ. Sci. Tech., 39 (13), 3097 (2004).11. Shi Fan, in Ph.D. Thesis “Removal of mixed contaminants from wastewaters

by lutistage flotation process”, Univ. of Pittsburgh, School of Enginerring, (2005).

12. Nenov V. et al., Chem. Eng. & Proc., 47 (4) 596 (2008).13. Rulyov N.N. et al., Int. J. Envir. & Poll., 30 (2), 345 (2007).14. Peleka E.N. and Matis K.A., Desalination, 222 (1-3), 1 (2008).

2) The role of bubble/particle size. In Flotation: Science and Engineering (K. A. Matis, ed.), published by M. Dekker, New York, (1995), Ch. 3, pp. 63-87.

1. Heindel T.J., in TAPPI Pulping Conf., IPST Technical Paper Series Num. 656, San Francisco, Calif., (1997).

2. Heindel T.J., Tappi J., 82 (3), 115 (1999).3. Rulyov N.N., Trans. Instit. Mining & Metallurgy, Sect. C: Min. Proces. &

Extr. Metall., 117 (1), 32 (2008).

3) Electrolytic flotation: an unconventional technique. In: Flotation: Science and Engineering (K. A. Matis, ed.), published by M. Dekker, New York, (1995), Chapter 14, pp. 385-413.

1. Perez E.H., in Ph.D. Thesis, “Desarrolo de Alternativas de Tratamiento de Aquas Residuales Industriales Mediante el Uso de Tecnologias Limpias Dirigados al Reciclaje Y/O Vabracior de Contaminantes”, Univ. of Valencia, Spain (2005).

4) Metal ion flotation in hydrometallurgy: the case of germanium. In: Flotation: Science and Engineering (K. A. Matis, ed.), published by M. Dekker, New York, (1995), Chapter 20, pp. 517-550.

1. Doyle F.M., Int. J. Miner. Proces., 72 (1-4), 387, (2003).2. Martinez A. et al., Afinidad, 60 (506), 369, (2003).3. Mueller P.U. et al., Adv. Coll. Interf. Sci., 114-5, 291 (2005).4. Hernandez-Esposito A. et al., Chem. Eng. J., 118 (1-2), 69 (2006).

69

5) Airborne Particulate Matter – Vol 4-D, (T. Kouimtzis and K. Samara, eds.), part of "The Handbook of Environmental Chemistry" (O. Hutzinger, ed.), published by Springer-Verlag, Berlin, (1995), pp. 279-335.

1. Fauser P., in “Particulate air pollution with emphasis on traffic generated aerosols”, Report R-1053 (EN), Riso Nat. Lab., Roskilde, Denmark (1999).

2. Sioutas C., Appl. Occup. & Env. Hygiene, 14 (4), 246 (1999).

Α3. Αναφορές σε άρθρα που δημοσιεύτηκαν σε Πρακτικά Διεθών Συνεδρίων (40)

5) Fly ash utilization in environmental engineering: the case of Greece. In: “Reclamation, Treatment and Utilization of Coal Mining Wastes” (A. Rainbow, ed.), Balkema (Rotterdam), (1990), σελ. 493-501.

1. Αlbanis T. et al., Toxic. Envir. Chem., 33 (3-4), 181 (1991).2. Albanis T. et al., Sci. Total Envir., 123, 481 (1992).

7) Flotation methods and techniques in wastewater treatment. In: “Innovations in Advanced Flotation Technology” (P. Mavros και K. A. Matis, eds.), που εκδόθηκε από M. Nijhoff, Dordrecht (Ολλανδία), (1992), σελ. 475-499.

1. Scott K., in “Electrochemical Processes for Clean Technology”, R.S.C., Cambridge (UK), p. 220 (1995).

2. Bolto B.A., Progr. in Polym. Sci., 20 (6), 987 (1995).3. Rubio J. and Tessele F., Miner. Eng., 10 (7), 671 (1997).4. Rubio J., Ch. in the book “Effluent Treatment in the Mining Industry”,

(Castro S.H., Vergara F. and Sanchez M.A., eds.), Univ. of Concepcion, Chile, pp. 335-364 (1998).

5. Namasivayam C. and Senthilkumar S., Ind. Eng. Chem. Res., 37 (12), 4816 (1998).

6. Rubio J. et al., Miner. Eng., 15 (3), 139 (2002).7. Torem M.L. et al., in Anais – 10th Semin. de Metals nao Ferrosos (2002),

pp. 482-492.8. Rodrigues R.T. and Rubio J., Miner. Eng., 16 (8), 757, (2003).9. Torem M.L. and Casqueira R.G., in «Flotacao Applicada a Remocao de

Metais Pesados», Serie Technol. Ambiental (Report), No. 28, CETEM, (2003).

10. Bueno B.Y.M., in Ph.D. Thesis «Aspectos Cimiticos da Remocio de Cromo(III) por Flotacio de Precipitados», Univ. of Rio de Janeiro, Brazil, (Dec., 2003).

11. De Almeida dos Santos Braga et al., in Proc. 58th Congr. Annual da ABM (2003), pp. 1211-1220.

12. Torem M.L. et al., in Proc. 58th Congr. Annual da ABM (2003), pp. 1161-1170.

13. Feng D. et al., Separ. Purif. Tech., 40 (1), 61 (2004).14. Murugananthan M. et al., Separ. Purif. Tech., 40 (10, 69 (2004).15. Rubio J and Tessele F., in “Processos para tratamento de effluents na

mineracao”, 16th Chapter in “Tratamento de Minerios”, 3rd ed., CETEM, Brasil, (2004), pp. 638-700.

16. Stoica L. and Oproiu G.C., Rev. Chim.–Bucharest, 56 (3), 228 (2005).

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17. Medina B.Y. et al., Miner. Eng., 18 (sp. Iss. 2), 225 (2005).18. Igwe J.C. et al., African J. of Biotech., 4 (10), 1109 (2005).19. Medina B.Y. et al., in Proc. REWAS’ 04 (2005) – Global Symp. “Recycling

Waste Treatment and Clean Technology”, pp. 1029-1038.20. Mansour L.B. et al., Desalination, 208 (1-3), 34 (2007).21. Raju G.B. et al., Int. J. of Envir. & Poll., 30 (2), 332 (2007).22. Nenov V. et al., Chem. Eng. & Proc., 47 (4) 596 (2008).23. Mansour L.B. and Kesentini I., J. of Haz. Mater., 153 (3), 1067 (2008).24. Oliveira C.R. and Rubio J., Int. J. of Min. Proc., 90 (1-4), 21 (2009).

12) Removal of phosphates from surface waters applying induced-air flotation. In: “Nutrient Removal from Wastewater” (N. J. Horan, P. Lowe and E. I. Stentiford, eds.), που εκδόθηκε από Technomic Publs., Lancaster (USA), (1994), σελ. 327-334.

1. J. Michopoulos, in Ph.D. Thesis “Wechselwirkung Flockenabtrennung unter Beruecksichtigung der Durchstroemungsmuster in Sedimentations- und Flotationsbecken”, published as Schriftenreihe des ISWW Karlsruhe, Band 72, Kommissionsverlag R. Oldenbourg, Munchen, (1995).

2. Anastassakis G.N. et al., in Proc. REWAS’ 04 (2005) – Global Symp. “Recycling Waste Treatment and Clean Technology”, pp. 1147-1154.

15) Cadmium biosorption and toxicity to laboratory-grown X. Campestris. In: 3rd Int. Conf. on "Separations for Biotechnology", organized by Society of Chemical Industry (SCI), Reading (UK), (Sept. 12-15, 1994). Proceedings published as a book with the same title (D.L. Pyle, ed.) by SCI (UK), (1994), pp. 249-254.

1. Ziagova M. et al., in Proc. of CHISA – 16th Congr. of Chem. & Process Eng. (2004), pp. 10829-10837.

19) Removal of metals from dilute aqueous solutions by biosorbents. In: Int. Conf. on "Ion Exchange Processes ION-EX '95 " , organized by the Royal Society of Chemistry, Wrexham (Wales, UK), (Sept. 10-14, 1995). Proceedings published as a book with the title “Progress in Ion Exchange: Advances and Applications” (A. Dyer, M. J. Hudson and P. A. Williams, Eds.) by RSC, Cambridge (U.K.), (1997), pp. 235-241.

1. Ghosh B. et al., Indian J. of Chem. Technol., 19 (1), 87, (2003).

20) A) Removal and recovery of metals from dilute solutions: applications of flotation techniques. In: Advanced Study Institute on "Mineral Processing and the Environment", organized by NATO, Varna (Bulgaria), (Aug. 18-30, 1996). Published as a book (G. P. Gallios and K. A. Matis, eds.) with the same title by Kluwer Publs., Dordrecht (The Netherlands), (1998), pp. 165-196.

1. Ezban M. et al., Envir. Protect. Eng., 27 (1), 13 (2001).2. Sabti H. et al., Env. Progress, 21 (1), 63 (2002).3. Stoica L and Oproiu G.C., Separ. Sci. Tech., 39 (4), 893 (2004).4. Hui K.-S. et al., J. Haz. Mater., 127 (1-3) 89 (2005).5. Peleka E.N. et al., Australasian Inst. of Mining & Metall., Publ. Ser., pp.

251-256 (2005).6. Qin Li et al., J. Haz. Mater., 141 (1), 163, (2007).7. Wang C. et al., J. of Envir. Sci., 21 (1), 127 (2009).

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20) B) The Biosorption process: an innovation in heavy metal ions reclamation. In: Advanced Study Institute on "Mineral Processing and the Environment", organized by NATO, Varna (Bulgaria), (Aug. 18-30, 1996). Published as a book (G. P. Gallios and K. A. Matis, eds.) with the same title by Kluwer Publs., Dordrecht (The Netherlands), (1998), pp. 361-385.

1. Stoica L. and Dima G., Revista de Chimie, 53 (4), 303, (2002).2. Mohapatra M. et al., J. Coll. Interf. Sci., 298 (1), 6 (2006).

21) Characterization of optimised cathodes prepared from synthesized spinel LiMn2O4 for Li-ion battery applications. In: Electrochemical Soc. Proc., 97-18, 199 (1998).

1. Terzidis D. et al., Solid State Ionics, 135, 297 (2000).2. Choi S. and Manthiram A., J. Electrochem. Soc., 147 (5), 1623 (2000).3. Lanz M. et al., J. Electrochem. Soc., 147 (11), 3997 (2000).

24) Goethite mineral as a sorbent for heavy metal ions. In: “Natural Microporous Materials in Environmental Technology”, (P. Misaelidis, ed.), Kluwer Acad., Netherlands, pp. 425-433 (1999).

1. Mohapatra M. et al., J. Coll. & Interf. Sci., 298 (1), 6 (2002).2. Zhang W. et al., Minerals Eng., 17 (4), 517 (2004).3. Vaclavicoka M. et al., Clean Tech. & Envir. Policy, 10 (1), 89 (2008).

27) Cd2+ removal by electroflotation onto sewage sludge biomass. In: 4th Int. Conf. on “Flotation in Water and Wastewater Treatment”, organized by the Finnish Water and Wastewater Works Association, Helsinki (Sept. 11-14, 2000). Proceedings published by IWA (without page numbering), 8 p.

1. Ferris L.A. et al., Int. J. Miner. Proces., 74 (1-4), 101 (2004).

29) Biooxidation of Arsenic(III) in fixed bed upflow reactors. In: Proc. Of the 1st Eur. Bioremediation Conf., (N. Kalogerakis, ed.), Chania (Greece), T.U. Crete, pp. 181-183, (2001).

1. Battaglia-Brunet F. et al., J. Appl. Microbiol., 93, 656 (2002).

31b) Removal of metals (Cd and Zn) by galvanochemical treatment. In: 7th Int. Conf. (CEST), on "Environmental Science and Technology", organized by Aegean Univ. (Th. Lekkas, ed.), Ermoupolis Syros (Greece), (Sept. 3-6, 2001). Proceedings, pp. 447-452.

1. Gyliene O. et al., Galvanotechnik, 99 (8), 2038-2048+viii (2008).

36) Removal of arsenic from contaminated ground waters using combined chemical and biological treatment methods (invited lecture). In: 10th Int. Gothenburg Symposium on “Chemical Water & Wastewater Treatment VII”, organized by Kemira in Gothenburg (Sweden), (June 17-19, 2002). Proceedings (H.H. Hahn, E. Hoffmann and H. Odegaard, Eds.), published as a book by IWA Publishing (London), pp. 119-130.

1. Pokhrel D. et al., Practice Period. Hazar. Toxic Radioactive Waste Manag., 9 (3), 152 (2005).

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45) Startup of pilot-scale vertical-flow constructed wetlands treating simulating wastewaters. In: 9th Intern. Conf. on “Constructed Wetlands”, organized by IWA, (27-30 Sept., 2004), Avignon (France). Proc. Published as CD (4 p.).

1. Korkusuz E.A., in “Manual of Practice on Constructed Wetlands for Wastewater Treatment and Reuse in Mediterranean Countries”, Med-Reunet II Report (Feb. 2005).

) Removal of arsenates from contaminated water by coagulation-direct filtration, In: 5th Int. Symposium με θέμα “Environmental Contamination in Central and Eastern Europe”, που οργανώθηκε από το Florida State University (USA) στην Πράγα (12-14 Σεπτ. 2000) και δημοσιεύητκε στα Πρακτικά του συνεδρίου αυτού (υπό μορφή CD-ROM, χωρίς αρίθμηση σελίδων).

1. Ghosh B. et al., Indian J. Chem. Tech., 10 (1), 87 (2003).

Οι παρακάτω ανακοινώσεις σε Ελληνικά Συνέδρια (3):

9) Η επίπλευση σαv μέθoδoς κατεργασίας vερoύ με σκoπό τηv αvακύκλωσή τoυ, που παρουσιάστηκε στο 2o Συvέδριο, με θέμα "Περιβαλλovτική Επιστήμη και Τεχvoλoγία", το οποίο οργανώθηκε από το Παvεπ. Αιγαίoυ στη Λέσβo, (3-7 Σεπτ. 1991) και περιέχεται στα Πρακτικά του Συνεδρίου, που εκδόθηκαν από το Πανεπ. Αιγαίου, Λέσβος (1991), σελ. 511-517.

12) Απoμάκρυvση τoξικώv μετάλλωv από υδατικά διαλύματα με επίπλευση - επίδραση τωv λειτoυργικώv παραμέτρωv, που Παρουσιάστηκε στο 3o Συvέδριο με θέμα "Περιβαλλovτική Επιστήμη και Τεχvoλoγία", το οποίο οργανώθηκε από το Παvεπ. Αιγαίoυ στη Λέσβo, (6-9 Σεπτ. 1993) και περιλαμβάνεται στα Πρακτικά του Συνεδρίου, που εκδόθηκαν από το Πανεπ. Αιγαίου, Λέσβος (1993), σελ. 140-146.

Αναφέρθηκαν σαν παραπομπές στο βιβλίο του Καθηγ. Θ. Λέκκα «Περιβαλλοντική Μηχανική Ι: Διαχείριση Υδατικών Πόρων», Εκδ. Τμήμα Περιβάλοντος, Πανεπ. Αιγαίου, Λέσβος (1996), σελ. 361.

23b) Removal of metals (Cd and Zn) by galvanochemical treatment. In: Proc. 7th Inter. Conf. On Env. Sci. & Tech., (Syros, 3-6 Sept., 2001), (Th. Lekkas, ed.), pp. 447-452, Aegean Univ.

1. Solozhenkin et al., in Proc. Int. Conf., “Metallurgy, Refractories and Environment”, T.U. Kosice (Slovakia), pp. 369-374, (2001).

73

Β. Αναφορές από επιστήμ ov ες τ o υ τμήματ o ς Χημείας (στενούς συνεργάτες), ΑΠΘ - Σύ vo λ o : 112 (105 + 7)

Β.1 Δημοσιεύσεις σε περιοδικά

3) Flotation techniques for the separation of trace pollutants, Chimica Chronica (New Series), 15, 133-146, (1986).

1. Stalidis G.A. et al., Int. J. Miner. Proces., 24 (3-4), 203 (1988).2. Stalidis G.A. et al., Separ. Sci. Tech., 24, 97 (1989).3. Stalidis et al., Separ. Sci. Tech., 24 (12), 1033 (1989).4. Μatis K. and Μavros P., Separ. Purif. Meth., 20 (1), 1 (1991).

4) Ion flotation in environmental technology, Chemosphere, 16 (2&3), 623-631, (1987).1. Stalidis G.A. et al., Separ. Sci. Tech., 24 (1-2), 97 (1989).2. Stalidis G.A. et al., Separ. Sci. Tech., 24 (12), 1033 (1989).3. Μatis K. and Μavros P., Separ. Purif. Meth., 20 (1), 1 (1991).

5) Separation of germanium and arsenic ions from effluents by flotation techniques, International Journal of Mineral Processing, 21, 83-92, (1987).

1. Matis K.A. et al., Coll. & Surf. - Part A’, 29 (2), 191 (1988).2. Stalidis G.A. et al., Separ. Sci. Tech., 24 (1-2), 97 (1989).3. Stalidis G.A. et al., Separ. Sci Tech., 24 (12), 1033 (1989).4. Μatis K. and Μavros P., Separ. Purif. Meth., 20 (1), 1 (1991).

6) Απoμάκρυvση ψευδαργύρoυ από διαλύματα με επίπλευση ιζήματoς, Τεχvικά Χρovικά (Επιστημovική 'Εκδoση, Τoμέας Γ: Χημικώv Μηχαvικώv), Γ -7 (1), 5-27, (1987).

1. Stalidis G.A. et al., Int. J. Miner. Proces., 24 (3-4), 203 (1988).2. Stalidis G.A. et al., Separ. Sci. Tech., 24 (1-2), 97 (1989).3. Stalidis G.A. et al., Separ. Sci. Tech., 24 (12), 1033 (1989).4. Μatis K. and Mavros P., Separ. Purif. Meth., 20 (1), 1 (1991).

7) Flotation of germanium from dilute solutions. Separation Science & Technology, 23 (4&5), 347-362, (1988).

1. Stalidis G.A. et al., Separ. Sci. Tech., 24 (12-13), 1033 (1989).2. Μatis K. and Mavros P., Separ. Purif. Meth., 20 (1), 1 (1991).

8) Adsorptionption of fatty acids on fine mineral particles as a purification method of industrial wastewaters, Toxicological & Environmental Chemistry, 20 (1), 425-435, (1989).

1. Gallios G.P. and Matis K.A., Envir. Tech., 11 (9), 811 (1990).2. Gallios G. et al., Ch. in the book “Flotation: Science and Engineering”,

σελ. 493 (1995).

74

9) Electrolytic flotation of chromium from dilute solutions, Environmental Technology (Letters), 10, 601-612, (1989).

1. Gallios G. and Matis K., Εnviron. Tech., 11 (9), 811 (1990).2. Μatis K. and Μavros K., Separ. Purif. Meth., 20 (1), 1 (1991).3. Κydros K., et al., J. Chem. Techn. Biotech., 59 (3), 223 (1994).4. Lazaridis N.K. et al., Chemosphere, 42 (4), 373 (2001).

11) Parameters influencing flotation in the removal of metal ions, Int. J. of Envir. Studies (Sect. B: Envir. Science & Techn.), 35, 183-196, (1990).

1. Μatis K. and Μavros K., Separ. Purif. Meth., 20 (1), 1 (1991).2. Lazaridis N.K. et al., Chemosphere, 42 (4), 373 (2001).3. Peleka E.N. et al., Australasian Inst. of Mining & Metall., Publ. Ser., pp.

251-256 (2005).

12) Separation of germanium from lead in solutions by flotation, Separation Science & Technology, 25 (4), 463-476, (1990).

1. Μatis K. and Mavros P., Separ. Purif. Meth., 20 (1), 1 (1991).

13) Foam flotation of zeolites - application on zinc ion removal, Separation Science & Technology, 26 (3), 355-365, (1991).

1. Μatis K. and Μavros P., Separ. Purif. Meth., 20 (1), 1 (1991).2. Μatis K. and Μavros P., Separ. Purif. Meth., 20 (2), 163 (1991).3. Κydros K. et al., Int. J. Miner. Proc., 38 (1-2), 141 (1993).4. Lazaridis N. et al., J. Membrane Sci., 228 (1), 83 (2004).

16) Use of fly ash for the removal of nickel ions from wastewaters, Fresenius Environmental Bulletin, 1 (6), 457-462, (1992).

1. Κydros Κ. and Μatis Κ. Α., Ch. in the book “Flotation: Science and Engineering”, σελ. 127 (1995).

17) Removal of copper ions during flotation of pyrite fines. Fresenius Environmental Bulletin, 1 (6), 450-455, (1992).

1. Κydros K. et al., J. Chem. Tech. Biotech., 59 (3), 223 (1994).

20) Adsorptionbing flotation of copper hydroxo-precipitates by pyrite fines. Separation Science & Technology, 27 (15), 2143-2155, (1992).

1. Lazaridis N.K. et al., Hydrometallurgy, 74 (1-2), 149 (2004).

26) Arsenic (III and V) removal from solutions by pyrite fines, Separation Science & Technology, 28 (15&16), 2449-2463, (1993).

1. Lazaridis N.K. et al., Chemosphere, 47 (3), 319 (2002).2. Deliyanni E.A. et al., Env. Sci. Poll. Res., 11 (1), 18 (2004).

75

28) Powdered activated carbon separation from water by foam flotation. Separation Science & Technology, 29 (3), 385-400, (1994).

1. Lazaridis N.K. and Asouhidou D.D., Water Res., 37 (12), 2875, (2003).

30) Recovery of Co(II) ions from aqueous solutions by froth flotation, Separation Science & Technology, 29 (7), 867-886, (1994).

1. Mavros P. et al., Chem. Eng. Res. Design, 73 (A6), 733 (1995).

38) Removal of hexavalent chromium ions using pyrite fines, Water Research, 29 (7), 1755-1760, (1995).

1. Lazaridis N.K. et al., Chemosphere, 42 (4), 373 (2001).

39) Removal of cadmium from dilute solutions by flotation. Water Science and Technology, 31 (3-4), 315-326, (1995).

1. Deliyanni E.A. and Matis K.A., Separ. Purif. Tech., 45 (2), 96 (2005).

45) Removal of toxic metals by biosorption on non-living sewage sludge. Separation Science & Technology, 31 (8), 1075-1092, (1996).

1. Salem Z. and Allia K., in Intern. Conf. Proc. “Protection and Restoration of the Environment”, T.U. Crete (2006).

46) Removal of molybdate and arsenate from aqueous solutions by flotation. Separation Science & Technology, 31 (6), 769-785, (1996).

1. Deliyanni E.A. et al., Env. Sci. Poll. Res., 11 (1), 18 (2004).

48) Flotation of molybdate oxyanions in dilute solutions. Part I. Selective separation from arsenate, Hydrometallurgy, 43, 143-154, (1996).

1. Lazaridis N.K. et al., Chemosphere, 47 (3), 319 (2002).

52) Removal of Cadmium from dilute aqueous solutions by hydroxyapatrite. Part III. Flotation studies, Separation Science and Technology, 32 (10), 1755-1767, (1997).

1. Lazaridis N.K. et al., Chemosphere, 42 (4), 373 (2001).

53) Flotation removal of As(V) onto goethite, Environmental Pollution, 97, 239-245, (1997).1. Lazaridis N.K. et al., Chemosphere, 42 (4), 373 (2001).2. Lazaridis N.K. et al., Chemosphere, 47 (3), 319 (2002).3. Deliyanni E.A. et al., Env. Sci. Poll. Res., 11 (1), 18 (2004).4. Deliyianni E.A. et al., In Intern. Conf. Proc. “Protection and Restoration of

the Environment”, T.U. Crete (2006).5. Deliyanni E.A. et al., J. Coll. Interf. Sci., 302 (2), 458 (2006).6. Deliyanni E.A. et al., Int.. J. Envir. & Waste Manag., 2 (3), 279 (2008).

76

54) Removal of metal ions from dilute solutions by sorptive flotation, Critical Reviews in Environmental Science and Technology, 27 (3), 195-235, (1997).

1. Lazaridis N.K. et al., Chemosphere, 42 (4), 373 (2001).2. Lazaridis N.K. et al., Chemosphere, 47 (3), 319 (2002).3. Bakoyannakis D.N. et al., in A.S.I. Conf., Turkey (2003), 6 p.4. Lazaridis N.K. et al., Hydrometallurgy, 74 (1-2), 149 (2004).5. Peleka E.N. et al., Australasian Inst. of Mining & Metall., Publ. Ser., pp.

251-256 (2005).6. Peleka E.N. et al., Separ. Sci. & Tech., 41 (14), 3229 (2006).7. Peleka E.N. et al., Int. J. Envir. & Poll., 30 (2), 273 (2007).

60) Biosorption of cadmium ions by Actinomycetes and separation by flotation. Environmental Pollution, 104 (2), 283-293, (1999).

1. Deliyanni E.A. and Matis K.A., Separ. Purif. Tech., 45 (2), 96 (2005).

61) Sorption of As(V) by goethite particles and study of their flocculation, Water, Air and Soil Pollution, 111, 297-316, (1999).

1. Lazaridis N.K. et al., Chemosphere, 47 (3), 319 (2002).2. Deliyianni E.A. et al., In Intern. Conf. Proc. “Protection and Restoration of

the Environment”, T.U. Crete (2006).3. Deliyanni E.A. et al., Int.. J. Envir. & Waste Manag., 2 (3), 279 (2008).

63) Removal of metal ions from dilute aqueous solutions: a comparative study of inorganic sorbent materials, Chemosphere, 39 (6), 881-892, (1999).

1. Lazaridis N.K. et al., Chemosphere, 42 (4), 373 (2001).

64) Interactive toxic effects of agrochemicals on aquatic organisms. Water Science & Technology, 40 (1), 357-364, (1999).

1. Bizani E. et al., J. Haz. Mater., 136 (1), 85 (sp. Iss.) (2006).2. Kungolos A. et al., WIT Transactions on Ecology and the Envir., 110,

263-270 (2009).

65) Photocatalytic oxidation of Auramine-O in the presence of semiconducting oxides. Journal of Chemical Technology and Biotechnology, 75, 205-212, (2000).

1. Poulios I. and Kyriakou G., Envir. Tech., 23 (2), 179 (2002).2. Evgenidou E. et al., in Proc. Int. Conf. 8th CEST, Lemnos, (Sept. 8-10,

2003), pp. 208-216.3. Poulios I. et al., J. Appl. Catal. – Part B’: Envir., 41 (4), 345 (2003).4. Evgenidou E. et al., J. Appl. Catal. – Part B’: Envir., 59 (102), 81 (2005).5. Evgenidou E. et al., J. Photoch. Photobiol., - Part A’, 175 (1), 29 (2005).6. Bizani E. et al., J. Haz. Mater., 136 (1), 85 (Sp. Iss. SI) (2006).7. Bizani E. et al., In: Proc. GHISA 2006 – 17th Int. Congress of “Chem. &

Process Eng.”, 2006, 10 p.8. Evgenidou E. et al., Catalysis Today, 124 (3-4), 156 (2007).

77

69) Modeling the sorption of metals from aqueous solutions on goethite fixed-beds. Environmental Pollution, 113, 121-128, (2001).

1. Deliyanni E.A. et al., J. Haz. Mater., 141 (1), 176 (2007).

73) Akaganeite-type (β-FeOOH) nanocrystals: preparation, characterization and study. Microporous and Mesoporous Materials, 42 (1), 49-57, (2001).

1. Deliyanni E.A. et al., Env. Sci. Poll. Res., 11 (1), 18 (2004).2. Bakoyannakis D.N. et al., in A.S.I. Conf., Turkey (2003), 6 p.3. Lazaridis N.K. and Charalambous Ch., Water Res., 39 (18), 4385 (2005).4. Deliyanni E.A. et al., J. Coll. Interf. Sci., 302 (2), 458 (2006).5. Deliyianni E.A. et al., In Intern. Conf. Proc. “Protection and Restoration of

the Environment”, T.U. Crete (2006).6. Deliyanni E.A. et al., Separ. Purif. Tech., 52 (3), 478, (2007).7. Deliyanni E.A. et al., J. Haz. Mater., 141 (1), 176 (2007).8. Deliyanni E.A. et al., Sep. Sci. & Tech., 42 (5), 993 (2007).9. Deliyanni E.A. et al., Int.. J. Envir. & Waste Manag., 2 (3), 279 (2008).

74) Flotation techniques in water technology for metals recovery: the impact of speciation. Separation Science and Technology, 36 (12), 3777-3800, (2001).

1. Lazaridis N. et al., J. Membrane Sci., 228 (1), 83 (2004).

76) As(III) removal from groundwaters using fixed-bed upflow bioreactors. Chemosphere, 47, 325-332, (2002).

1. Katsoyiannis I., J. Haz. Mater., 139 (1), 31 (2006).

77) Removal of arsenates from contaminated water by coagulation-direct filtration. Separation Science & Technology, 37 (12), 2859-2873, (2002).

1. Katsoyiannis I.A. et al., Desalination, 224 (1-3), 330 (2008).

80) Removal of toxic metals from simulated wastewaters by upflow filtration using floating filter medium. Part I: the case of zinc. Separation Science & Technology, 37 (2), 1-14, (2002).1.

82) Removal of arsenic from contaminated water sources by sorption onto iron oxide coated polymeric materials. Water Research, 36, 5141-5155, (2002).

1. Katsoyiannis I.A. and Katsoyiannis A.A., Env. Monit. & Assess., 123 (1-3), 393 (2006).

84) Sorption of As(V) ions by Akaganeite-type nanocrystals. Chemosphere, 50, 155-163, (2003).1. Lazaridis N.K. et al., Chemosphere, 58 (1) 65 (2005).2. Deliyanni E.A. and Matis K.A., Separ. Purif. Technol., 45 (2), 96 (2005).3. Deliyanni E.A. et al., J. Coll. Interf. Sci., 302 (2), 458 (2006).4. Deliyanni E.A. et al., J. Haz. Mater., 141 (1), 176 (2007).5. Deliyanni E.A. et al., Int.. J. Envir. & Waste Manag., 2 (3), 279 (2008).

78

86) Akaganeite and goethite-type nanocrystals: synthesis and characterization. Microporous & Mesoporous Materials, 59, 35-42, (2003).

1. Bakoyannakis D.N. et al., in A.S.I. Conf., Turkey (2003), 6 p.2. Deliyanni E.A. and Matis K.A., Separ. Purif. Tech., 45 (2), 96 (2005).3. Lazaridis N.K. et al., Chemosphere, 58 (1), 65 (2005).4. Deliyianni E.A. et al., In Intern. Conf. Proc. “Protection and Restoration of the

Environment”, T.U. Crete (2006).5. Deliyanni E.A. et al., J. Coll. Interf. Sci., 302 (2), 458 (2006).6. Deliyanni E.A. et al., Int.. J. Envir. & Waste Manag., 2 (3), 279 (2008).

88) Removal of Cr(VI), Mo(VI) and V(V) ions from single metal solutions by (i) sorption, or (ii) nano-filtration. Separation Science & Technology, 38 (10), 2201-2219, (2003).

1. Lazaridis N.K. et al., Chemosphere, 58 (1) 65 (2005).

91) Sorptive flotation for metal ions recovery. International Journal of Mineral Processing, 70, 99-108, (2003).

1. Lazaridis N.K. et al., Hydrometallurgy, 74 (1-2), 149 (2004).

92) Coagulation-flocculation pretreatment of sanitary landfill leachates. Chemosphere, 53 (7), 737-744, (2003).

1. Deliyianni E.A. and Lazaridis N.K., in Intern. Conf. Proc. “CEST 2005”, Rhodes, pp. 152-157 (Sept. 2005).

2. Wasowski J. et al., In Intern. Conf. Proc. “Protection and Restoration of the Environment”, T.U. Crete (2006).

94) Removal of arsenic and cadmium by akaganeite fixed-beds. Separation Science & Technology, 38 (16), 3967-3981, (2003).

1. Deliyanni E.A. and Matis K.A., Separ. Purif. Tech., 45 (2), 96 (2005).2. Deliyanni E.A. et al., J. Coll. Interf. Sci., 302 (2), 458 (2006).3. Deliyanni E.A. et al., J. Haz. Mater., 141 (1), 176 (2007).

100) Application of biological processes for the removal of arsenic from groundwaters. Water Research, 38 (1), 17-26, (2004).

1. Deliyanni E.A. et al., Int.. J. Envir. & Waste Manag., 2 (3), 279 (2008).

101) Removal of As(V) from wastewaters by chemically modified fungal biomass. Water Research, 37, 4544-4552, (2003).

1. Deliyanni E.A. et al., J. Coll. Interf. Sci., 302 (2), 458 (2006).

102) Fate of Lindane in conventional activated sludge system, treating industrial or domestic wastewaters. Chemosphere, 55, 81-91, (2004).

1. Katsoyiannis A. and Samara C., Envir. Res., 97 (3), 245 (2005).

79

103) The application of sorptive flotation for the removal of metal ions. Desalination, 162, 159-168, (2004).

1. Matis K.A. et al., Separ. Purif. Tech., 40 (1), 1 (2004).2. Peleka E.N. et al., Int. J. Envir. & Poll., 30 (2), 273 (2007).3. Kostoglou M. et al., Ind. & Eng. Chem. Res., 46 (20), 6590 (2007).4. Peleka E.N. and Matis K.A., Desalination, 222 (1-3), 1 (2008).

105) Kinetics of bacterial As(III) oxidation and subsequent As(V) removal by sorption onto biogenic manganese oxides in groundwater treatment. Industrial & Engineering Chemistry Research (ACS), 43 (2), 486-493, (2004).

1. Katsoyiannis I.A. et al., Sci. Total Envir., 383 (1-3), 128 (2007).2. Katsoyiannis I.A. et al., Desalination, 224 (103), 330 (2008).3. Katsoyiannis I.A. et al., Envir. Sci. & Tech., 42 (19), 7424 (2008).

106) Application of flotation for the separation of metal-loaded zeolites. Chemosphere, 55, 65-72, (2004).

1. Lazaridis N.K. et al., Hydrometallurgy, 74 (1-2), 149 (2004).2. Peleka E.N. et al., Australasian Inst. of Mining & Metall., Publ. Ser., pp. 251-

256 (2005).3. Peleka E.N. et al., Desalination, 194 (1-3), 135 (2006).4. Peleka E.N. et al., Separ. Sci. & Tech., 41 (14), 3229 (2006).5. Kostoglou M. et al., Ind. & Eng. Chem. Res., 46 (20), 6590 (2007).

107) Bioremediation of Mn(II) and Fe(II) during groundwater treatment: kinetic consideration and products characterization. Water Research, 38 (7), 1922-1932, (2004).

1. Deliyianni E.A. et al., In Intern. Conf. Proc. “Protection and Restoration of the Environment”, T.U. Crete (2006).

2. Katsoyiannis I., J. Haz. Mater., 139 (1), 31, (2007).3. Katsoyiannis I.A. et al., Sci. Total Envir., 383 (1-3), 128 (2007).4. Katsoyiannis I.A. et al., Desalination, 224 (103), 330 (2008).

111) Equilibrium and kinetic modeling of chromium(VI) biosorption by Aeromonas caviae. Colloids & Surfaces. Part A’: Physico-chemical & Engineering Aspects, 242, 93-104, (2004).

1. Deliyanni E.A. et al., J. Coll. Interf. Sci., 302 (2), 458 (2006).2. Deliyanni E.A. et al., J. Haz. Mater., 141 (1), 176, (2007).

112) Sonochemical decomposition of natural polyphenolic compound (condensed tannin). Chemosphere, 56, 981-987, (2004).

1. Dafnopatidou E.K. et al., Ind. Eng. Chem. Res., 46 (7), 2125 (2007).

113) A hybrid flotation–microfiltration process for metal ions recovery. Journal of Membrane Science, 247, 29-35, (2005).

80

1. Mavrov V. et al., in: Intern. Conf. Proc. “CEST 2005”, Rhodes, pp. 978-983 (Sept. 2005).

2. Peleka E.N. et al., Int. J. Envir. & Poll., 30 (2), 273 (2007).3. Gallios G.P. and Vaclavikova M., Envir. Chem. Letters, 6 (4), 235 (2008).

114) Recent advances in the bioremediation of metal-contaminated groundwaters. Environment International, 31, 213-219, (2005).

1. Biterna M. et al., In Intern. Conf. Proc. “Protection and Restoration of the Environment”, T.U. Crete (2006).

2. Biterna M. et al., J. Haz. Mater., 149 (3), 548 (2007).3. Katsoyiannis I.A. et al., Desalination, 224 (103), 330 (2008).

117) Application of flotation for the separation of metal-loaded resins. Separation Science & Technology, 40 (4), 861-876, (2005).

1. Peleka E.N. et al., Int. J. Envir. & Poll., 30 (2), 273 (2007).

121) Sorption of Arsenic oxyanions from aqueous solution on goethite: a study of the process modeling. Invited paper (for a Special Issue), Microchimica Acta, 151 (3-4), 269-275 (2005).

1. Deliyianni E.A. et al., In Intern. Conf. Proc. “Protection and Restoration of the Environment”, T.U. Crete (2006).

2. Deliyanni E.A. et al., Int.. J. Envir. & Waste Manag., 2 (3), 279 (2008).

128) Comparative evaluation of conventional and alternative methods for the removal of arsenic from contaminated groundwaters, Reviews on Environmental Health, 21 (1), 25-43, (2006).

1. Katsoyiannis I.A. et al., Sci. Total Envir., 383 (1-3), 128 (2007).2. Katsoyiannis I.A. et al., Desalination, 224 (103), 330 (2008).

131) Use of iron and manganese oxidizing bacteria for the combined removal of iron, manganese and arsenic from contaminated ground waters. Invited paper, Water Quality Research Journal of Canada, 41 (2), 117-129, (2006).

1. Katsoyiannis I.A. et al., Desalination, 224 (103), 330 (2008).

134) Persistent Organic Pollutants (POPs) in the conventional activated sludge treatment process: model predictions against experimental values. Chemosphere, 65, 1634-41, (2006).

1. Katsoyiannis A. and Samara C., Chemosphere, 67 (7), 1375 (2007).2. Katsoyiannis A. et al., Chemosphere, 69 (8), 1337 (2007).3. Manoli E. and Samara C., Environmental Pollution, 151 (3), 477 (2008).

Α.2 A ναφορές σε άρθρα που δημοσιεύτηκαν σαν κεφάλαια βιβλίων

1) Flotation: an overview of the process. In: “Flotation Science and Engineering” (K. Matis, ed.), M. Dekker, New York, pp. 1-44, (1995).

81

1. Peleka E.N. et al., Int. J. Envir. & Poll., 30 (2), 273 (2007).

Β Δημοσιεύσεις σε πρακτικά διεθνών συνεδρίων (7)

1) Separation of chromium by flotation techniques, στο βιβλλίο “Heavy Metals in the Environment”, που εκδόθηκε από την εταιρεία CEP, Edinbourgh, (1985).

1. Stalidis G.A. et al., Int. J. Miner. Proces., 24 (3-4), 203 (1988).2. Μatis K. and Μavros K., Separ. Purif. Meth., 20 (1), 1 (1991).3. Bakoyannakis D.N. et al., in A.S.I. Conf., Turkey (2003), 6 p.

2) Separation of heavy metals from effluents by flotation, στο βιβλίο “Pretreatment in Chemical Water and Wastewater Treatment” (H. H. Hahn and R. Klute, eds.), Springer-Verlag, Berlin, (1988), pp. 159-167.

1. Μatis K. and Μavros P., Separ. Purif. Meth., 20 (1), 1 (1991).

7) Flotation methods and techniques in wastewater treatment, στο βιβλίο “Innovations in Advanced Flotation Technology” (P. Mavros και K. A. Matis, eds.), Nijhoff, Dordrecht (Ολλανδία), (1992), σελ. 475-499.

1. Lazaridis N. et al., Separ. Sci. Tech., 27 (13), 1743 (1992).2. Lazaridis N.K. et al., Hydrometallurgy, 74 (1-2), 149 (2004).3. Peleka E.N. et al., Separ. Sci. & Tech., 41 (14), 3229 (2006).4. Peleka E.N. et al., Int. J. Envir. & Poll., 30 (2), 273 (2007).

20) A) Removal and recovery of metals from dilute solutions. In: Advanced Study Institute on "Mineral Processing and the Environment", organized by NATO, Varna (Bulgaria), (Aug. 18-30, 1996). Published as a book (G. P. Gallios and K. A. Matis, eds.) with the same title by Kluwer Publs., Dordrecht (The Netherlands), (1998), pp. 165-196.

1. Lazaridis N.K, Water, Air & Soil Poll., 146 (1-4), 147 (2003).2. Lazaridis N.K. et al., Hydrometallurgy, 74 (1-2), 149 (2004).3. Deliyanni E.A. et al., Env. Sci. & Poll. Res., 11 (1), 18 (2004).4. Peleka E.N. et al., Int. J. Envir. & Poll., 30 (2), 273 (2007).

21) Characterization of optimized cathodes prepared from synthesized spinel LiMn2O4 for Li-ion battery applications. In: Joint Int. Scientific Meeting Electrochemical Society (192nd meeting) and Int. Society of Electrochemistry (annual meeting), Paris (1997). Published in Electrochemical Soc. Proceedings, 18, 199-207, (1997).

1. Moumouzias G. et al., J. of Power Sources, 122 (1), 57 (2003).

24) Modelling sorption of metals from aqueous solution onto mineral particles: the case of arsenic ions and goethite ore, στο βιβλίο «Natural Microporous Materials in Environmental Technology» (P. Misaelides, ed.), Kluwer Academic, The Netherlands, pp. 463-472, (1999).

1. Lazaridis N.K. et al., Chemosphere, 47 (3), 319 (2002).

82

Γενικό σύνολο (Α + Β) = 1601 + 112 = 1713

83