Hivatkozási lista. Könyv

Hivatkozási lista Könyv 1 Bélafiné Bakó K.: Membrános mőveletek, Veszprémi Egyetemi Kiadó, Veszprém, 2002 (30 hiv.) Koris A.: Az ultraszőrés során keletkezı gélréteg ellenállásának modellezése olajtartalmú emulzió szétválasztásnál, Olaj, Szappan, Kozmetika 51(6) 217-221(2002) Fráter Tamás: A tisztítás hatékonyságának vizsgálata és az iszapelhelyezés megoldásának lehetıségei a Duna Menti Regionális Vízmő Rt. Szennyvíztisztító telepein, TDK dolgozat, Veszprémi Egyetem, 2002 Rektor A., et al.: Komplex membránszőrési eljárás alkalmazása mustok tartósítására, Mőszaki Kémiai Napok, Veszprém, 2003, Proceedingek, pp. 67-72 Kovács F., Hancsók J., Szirmai L.: Biodízel motorhajtóanyagok elıállítási eljárásainak összehasonlítása, Magyar Kémikusok Lapja, 58 (2003) 248-252 Vincze I., Vatai Gy.: Kávéextraktum besőrítése nanoszőrı eljárással, Mőszaki Kémiai Napok, Veszprém, 2003, Proceedingek, pp. 81-86 Kiss I., Békássyné Molnár E., Vatai Gy.: Nanoszőrı membránok összehasonlítása borbesőrítés esetén, Mőszaki Kémiai Napok, Veszprém, 2004, Proceedingek, pp. 170-172 Rektor A., Burján I.: Komplex membránszőrési eljárás alkalmazása mustok tartósítására, Mőszaki Kémiai Napok, Veszprém, 2004, Proceedingek, pp. 133-137 Koroknai B.: A membrános mőveletek szerepe a visegrádi országok vízgazdálkodásának fejlesztésében, Membrántechnika 8(3) (2004) 42-51 Vincze I, Vatai G.: Application of nanofiltration for coffee extract concentration, DESALINATION 162 (1-3): 287-294 (2004) Koris A., X. Hu, Borsos K.: Ultraszőrés és nanoszőrés hatékonyságának vizsgálata olajos szennyvizek kezelésénél, Membrántechnika 8(4) 61-71 (2004) Rektor A.: Tejsavó laktózmentesítése membrános eljárás és enzimes hidrolízis kombinációjával, Membrántechnika 9(1) 2-8 (2005) Mizsey P., Cséfalvy E.: Többkomponenső elegyek pervaporációjának vizsgálata, Mőszaki Kémiai Napok, Veszprém, 2005, Proceedingek, pp. 134-135 Borbély G., Nagy E.: Nehézfémek kinyerése vizes oldatból komplexképzéssel segített membránszőréssel, Mőszaki Kémiai Napok, Veszprém, 2006, Proceedingek, pp. 212-215 Galambos I.: Kútvizek huminsav- és arzénmentesítése, PhD értekezés, Budapesti Corvinus Egyetem, 2006 Kiss I., Békássyné M.E., Vatai Gy.: nanoszőrési eljárástechnikák összehasonlítása borsőrítés esetén, Membrántechnika, 10 (2006) 58-68 Fogarassy E., Békássyné Molnár E., Vatai Gy.: Biológiai ecet töményíthetıségének vizsgálata fordított ozmózis és membrán desztilláció alkalmazásával, Mőszaki Kémiai Napok, Veszprém, 2007, Proceedingek, pp. 207 Vincze I, Banyai-Stefanovits E, Vatai G: Concentration of sea buckthorn (Hippophae rhamnoides L.) juice with membrane separation, SEPARATION AND PURIFICATION TECHNOLOGY 57 (3): 455-460, 2007 Pauer V., Cséfalvay E., Mizsey P.: Hulladékvizek réz-mentesítése fordított ozmózis segítségével, Mőszaki Kémiai Napok, Veszprém, 2007, Proceedingek, pp. 203-206 Lovász A., Mizsey P.: Membránmőveletek modellezése: Pervaporáció, Membrántechnika 12 (2008) 2-11 Koris A.: Membránok viselkedésének elméleti és kísérleti vizsgálata olajos közegek elválasztása és finomítása során, PhD értekezés, Budapesti Corvinus Egyetem, 2008 1

Süveges H.: Fekete ribizli besőrítése reverz ozmózissal különbözı enzimes leıkezelést követıen, szakdolgozat, Szegedi Tudományegyetem, 2008 Szép A., Kertész Sz., Süveges H., Hodúr C., Szabó G.: Enzimkezelt feketeribizli berőrítése hiperszőréssel, Mőszaki Kémiai Napok, Veszprém, 2008, Proceedingek, pp. 216-220 Borbély G., Nagy E.: Komplexképzéssel segített membránszőrés alkalmazása ipari szennyvizetk fémtartalmának kinyerésére, Membrántechnika 12 (2008) 42-51 Kocsis B.: Membrán-eltömıdés modellezése gyümölcslevek nanoszőrése során, szakdolgozat, Szegedi Tudományegyetem, 2008 Huj M., Nagy E.: Ammóünium laktát bontása elektrodialízissel, Mőszaki Kémiai Napok, Veszprém, 2008, Proceedingek, pp. 236-241 Cséfalvay E., Mizsey P.: Membránmőveletek modellezése II: Membránszőrés, Membrántechnika, 12 (2008) 58-69 Horváth M.: Feketeribizlilé koncentrálás optimalizálása szoftveres kísérlettervezés alapján, szakdolgozat, Szegedi Tudományegyetem, 2009 Koczka K.: Elválasztástechnikai folyamatok környezetközpontú tervezés és ipari alkalmazása, PhD dolgozat, BME, Budapest, 2009 Klopcsik T.: Savanyú savó fehéjéinek koncentrálása membránszeparációs eljárásokkal,, szakdolgozat, Szegedi Tudományegyetem, 2009 Cséfalvay E.: Membrane operations in the green technology: solvent recovery and process water treatment, PhD thesis, BME, Budapest, 2009 Könyvrészletek 1. Bélafi-Bakó, K., Gubicza, L., Csányi, E., Galán, M.A., Moreno, J.A.: Production of Bioesters by Immobilised Lipases, in Stability and Stabilization of Biocatalysts, ed. by A. Ballesteros, et al., Progress in Biotechnology, Vol. 15, Elsevier, Amsterdam, 1998, pp. 653-6 (2 hiv.) Nagy, E.: Diffusion mass transfer in enzyme membrane reactor, in Integration of Membrane Processes into Bioconversions, ed. by Bélafi-Bakó, K. et al., Kluwer Academic, London, 2000 pp. 211 Kovács F., Hancsók J., Szirmai L.: Biodízel motorhajtóanyagok elıállítási eljárásainak összehasonlítása, Magyar Kémikusok Lapja, 58 (2003) 248-252 2. Bélafi-Bakó, K.: Membrane Separation Processes, General Introduction, in Integration of Membrane Processes into Bioconversions, ed. by Bélafi-Bakó, K. et al., Kluwer Academic, London, 2000 pp. 3-10 (2 hiv.) Hodúr C., Sándor Gy., Papp G., Szabó G.: Gyümölcslé besőrítése hiperszőréssel, Mőszaki Kémiai Napok, Veszprém, 2002, Proceedingek, pp. 120-125 Kovács Z., Samhaber, W.: Characterization of nanofiltration membranes with uncharged solutes, Membrántechnika 12 (2008) 22-35 3. Bélafi-Bakó, K., Gubicza, L.: Biocatalysts and Membranes, in Integration of Membrane Processes into Bioconversions, ed. by Bélafi-Bakó, K. et al., Kluwer Academic, London, 2000 pp. 131-140 (19 hiv.) Hodúr C., Terhes K., László Zs., Papp G.: Víztisztítás membrántechnikával, V. Nemzetközi Élelmiszertudományi Konferencia, Szeged, 2002, Proceedingek Koris A.: Az ultraszőrés során keletkezı gélréteg ellenállásának modellezése olajtartalmú emulzió szétválasztásnál, Olaj, Szappan, Kozmetika 51(6) 217-221(2002) Vincze I., Vatai Gy.: Kávéextraktum besőrítése nanoszőrı eljárással, Mőszaki Kémiai Napok, Veszprém, 2003, Proceedingek, pp. 81-86 2

Cascaval D, Galaction AI, Oniscu C: The selective pertraction of carboxylic acids obtained by citric fermentation process. The separation of succinic and malic acids REV CHIM-BUCHAREST 54 (6): 525-529 (2003) Hodúr C., László Zs., Papp G.: Fenoltartalmú termálvíz ultra- és hiperszőrése, Mőszaki Kémiai Napok, Veszprém, 2003, Proceedingek, pp. 91-96 Galambos L, Molina JM, Jaray P, et al. High organic content industrial wastewater treatment by membrane filtration, DESALINATION 162 (1-3): 117-120 (2004) Román A., Márki E.: Sótartalom hatása etanol pervaporációjára, Mőszaki Kémiai Napok, Veszprém, 2004, Proceedingek, pp. 188-191 Singh, K.P., Nain, J., Ahmad, M.: Effect of varying electrolytic concentration on transport phenomenon after blockage of active site: activation of low affinity active/passive sites in pericardial membrane, Membrántechnika 8 (2004) 2-11 Kiss I., Békássyné Molnár E., Vatai Gy.: Nanoszőrı membránok összehasonlítása borbesőrítés esetén, Mőszaki Kémiai Napok, Veszprém, 2004, Proceedingek, pp. 170-172 Vincze I, Vatai G.: Application of nanofiltration for coffee extract concentration, DESALINATION 162 (1-3): 287-294 (2004) Hodúr C., Péter Szabó I., Papp G.: A membránszeparációs alkalmazása paradicsomlé sőrítésére, Membrántechnikai Konferencia, Budapest, 2004, Proceedingek, pp. 11-17 Vincze I., Vatai Gy.: Kávéextraktum besőrítése nanoszőréssel: modellezés és gazdaságossági vizsgálatok, Membrántechnikai Konferencia, Budapest, 2004, Proceedingek, pp. 61-66 Cascaval D, Galaction AI, Oniscu C: Selective pertraction of carboxylic acids obtained by citric fermentation, SEPARATION SCIENCE AND TECHNOLOGY 39 (8): 1907-1925 2004 Koris A., X. Hu, Borsos K.: Ultraszőrés és nanoszőrés hatékonyságának vizsgálata olajos szennyvizek kezelésénél, Membrántechnika 8(4) 61-71 (2004) Rektor A.: Tejsavó laktózmentesítése membrános eljárás és enzimes hidrolízis kombinációjával, Membrántechnika 9(1) 2-8 (2005) Cascaval D, Galaction AI, Nicuta N: The separation of erythromycin by nonfacilitated and facilitated pertraction REVISTA DE CHIMIE 57 (3): 297-302 (2006) Galambos I.: Kútvizek huminsav- és arzénmentesítése, PhD értekezés, Budapesti Corvinus Egyetem, 2006 Vincze, I., Stefanovitsné B.É., Ábrók Zs., Vatai Gy.: Homoktövis lé sőrítmény elıállítása membránszőréssel, Olaj, Szappan Kozmetika, 55 (2006) 90-93 Csanadi, Z., Sisak, C.: Production of short chain fructooligosaccharides, Hung. J. Ind. Chem. 36 (2009) 23-26 4. Bélafi-Bakó, K., Sinóros-Szabó, B.: Integrated System for Biomass Production and Conversion in Central Europe, in Pollution and Water Resources, Columbia University Seminar Proceedings, ed. by Halasi-Kun, G.J., Budapest, 2001, pp. 13-20 5. Bélafi-Bakó, K.: Enzymatic Processes and Fermentation, in Handbook of Waste Management and Co-product Recovery in Food Processing, ed. by Waldron, K., Woodhead Publishing, London, 2007, pp. 198-216 6. Bélafi-Bakó, K.: Food Manufacture, in Enzyme Mixtures and Complex Biosynthesis, ed. by Bhattachara, S.K., Landes Bioscience, 2007, pp. 29-35 3

7. Bélafi-Bakó, K.: Simultaneous application of enzymes and membranes in food processing, in Food Engineering Research Trends, Ed. by Jerrod, M Cantor, Nova Science Publishers, New York, 2008 pp. 263-279 (1 hiv.) Csanadi, Z., Sisak, C.: Production of short chain fructooligosaccharides, Hung. J. Ind. Chem. 36 (2009) 23-26 Angol nyelvő tudományos cikkek 1. Bélafi-Bakó, K. and Nagy, E.: Hydrolysis of Olive Oil by Lipase, Med. Fac. Landbouww. Univ. Gent, 57/4b, 2013 (1992) (2 hiv.) Nenos, T.: Hydrolysis of Olive Oil Using Immobilised Lipase, M. Sc. Thesis, UMIST, (Manchester, UK) 1993 Károly Istvánné Dombi Ágnes: Olívaolaj enzimes hidrolízise, Egyetemi doktori értekezés, Veszprémi Egyetem, (Veszprém) 1996 2. Nagy, E., Bélafi-Bakó, K. and Szabó, P.: A Kinetic Study of the Hydrolysis of Maltodextrin by Soluble Glucoamylase Enzyme, Starch/Stärke, 44(4) 145-148 (1992) (IF=0,452; 8 hiv.) Pandey, A.: Glucoamylase research an overview, Starch/Stärke, 47(11) 439-445 (1995) Law, C.S.R.: The development of a novel magnetic support for enzyme immobilization: Kinetic studies using glucoamylase, Ph.D. thesis, UMIST, (Manchester, UK) 1995 Heitmann, T. et al.: Model for the Influence of Mass Transport on Enzymatic Hydrolysis of Polysaccharides, Chem. Eng. Technol. 20(1) 1-9 (1997) Miller, E.: Immobilization of glucoamylase on polyamide nets, Acta Biotechnol. 18(2): 135-146 (1998) Peeva, L., Yankov, D.: Modelling of simultaneous hydrolysis and fermentation of maltodextrines to ethanol, Bioproc. Eng. 22(5) 397-401 (2000) Ribeiro, L.: Cellulose hydrolysis using a membrane bioreactor, M.Sc. thesis, UMIST (Manchester, UK) 2001 Cepeda, E., Hermosa, M., Ballesteros, A.: Optimization of maltodextrin hydrolysis by glucoamylase in a batch reactor, Biotechnol. Bioeng. 76(1) 70-76 (2001) Bartha L.: Oligoszacharidok eltávolítása glükóz oldatból membránszőrés segítségével, Membrántechnika, 7 (2003) 42-46 3. Bélafi-Bakó, K. and Nagy, E.: Characteristics of AOT/Iso-octane/Water Systems, Hung. J. Ind. Chem. 22 51-56 (1994) (IF=0,234; 2 hiv.) Stasiuk, E.N., Schramm, L.L.: An absolute droplet pressure interfacial tensiometer and its application to bituminous systems of vanishing density contrast, Coll. Polymer Sci. 278(12) 1172-1179 (2000) Stasiuk, E.N., Schramm, L.L.: The influence of solvent and emulsifier additions on nascent froth formation during flotation recovery of Bitumen from Athabasca oil sands, Fuel Proc. Technol. 73(2) 95-110 (2001) 4. Bélafi-Bakó, K., Dombi, Á., Szabó, L. and Nagy, E.: Triacylglycerol Hydrolysis by Lipase in a Flat Membrane Bioreactor, Biotechnol. Techn. 8 671-4 (1994) (IF=0,963; 3 hiv.) Derwent Biotechnology Abstracts, 13(22) 108 (1994) Venyige, T., E. Csányi, Cs. Sisak: Conversion and stability studies on enzymemembrane reactor with lipase immobilized by different methods, Stability and Stabilization of Biocatalysts, ed. by A. Ballesteros et al., Elsevier, 1998, pp.101-106 4

Várdai Enikı: Tejsav fermentáció immobilizált sejtekkel, szimultán termékadszorpcióval, diplomadolgozat, Veszprémi Egyetem, (Veszprém) 1998 5. Bélafi-Bakó, K., Dombi, Á., Szabó, L. and Nagy, E.: Effect of Temperature on Hydrolysis of Triolein by Lipase, J. Mol. Cat. 94 L291-7 (1994) (IF=1,178; -) 6. Bélafi-Bakó, K., Webb, C., Dombi, Á. and Nenos, T.: Activity Determination of Lipases, Hung. J. Ind. Chem. 23 27 (1995) (IF=0,234; -) 7. Bélafi-Bakó, K., Dombi, Á., Szabó, L. and Nagy, E.: Comparative Study on Hydrolysis of Triolein in Reversed Micellar System by Different Types of Lipases, Biotechnol. Techn. 9(1) 59 (1995) (IF=0,963; 6 hiv.) De T. K. Maitra, A.: Solution behavior of aerosol OT in nonpolar solvents, Adv. Coll. Interfac. 59 95-193 (1995) Gargouri, M., Legoy, M.D.: Chemoenzymatic production of (+)-coriolic acid from trilinolein: coupled synthesis and extraction, J. Am. Oil Ch. 74 641-645 (1997) Moulik, S.P., Paul, B.K.: Structure, dynamics and transport properties of micoemulsions, Adv. Coll.Interfac. 78 99-195 (1998) R Dobson, GP.: Organ arrest, protection and preservation: natural hibernation to cardiac surgery, Comparative Biochem Phys B-Biochem Mol Biol, 139 (3) 469-485 (2004) Tonova, K.: Studies on the reversed micelles as media for enzyme purification and enzyme catalyzed reactions, PhD thesis, Sofia, 2009 Tonova, K., Lazarova, Z.: Modelling of enzymatic esterification kinetics with respect to the substrates ratio, Bulg. Chem. Comm. 41 (2009) 323-329 8. Bélafi-Bakó, K., Harasek, M. and Friedl, A.: Product Removal in Ethanol and ABE Fermentations, Hung. J. Ind. Chem. 23 359 (1995) (IF=0,234; 3 hiv.) Szepesi Orsolya: Etil-alkohol/víz elegy szeparációja inert öblítéses pervaporációval, Diplomadolgozat, VE (1998) Qureshi, N,. Meagher, M.M., Hutkins, R.W.: Recovery of butanol from model solutions and fermentation broth using a silicalite silicone membrane, J. Membr. Sci. 158 (1-2) 115-125 (1999) Atra Ramadan: Membránszeparációs mőveletek tej- és szeszipari alkalmazásai, PhD értekezés, Szent István Egyetem, Budapest, 2000 9. Bélafi-Bakó, K., Yankov, D., Szabó, L., Beschkov, V. and Nagy, E.: Model of Maltodextrin Hydrolysis by Immobilized Glucoamylase, Bulgarian Chemical Publications 29 (1) 41-7 (1996/7) (IF=0,109; -) 10. Csányi, E., Bélafi-Bakó, K., Gyulai, Gy., Harasek, M., Godek, Zs.: Comparative Study on Esterification of Ethanol and Fatty Acids by Lipase in Membrane Bioreactor and Two Phase System, Med. Fac. Landbouww. Univ. Gent, 62/4b 1255-8 (1997) (-) 11. Szabó, L., Kalló, D., Szotyory, L., Major, J., Bélafi-Bakó, K., Hadik, P., Sisak, Cs.: Contribution of the Lipophilic Buffer to Chiral Recognition under Reversed-Phase Conditions, Chromatographia, 45 378-382 (1997) (IF=1,869; 5 hiv.) Fransson, B, Ragnarsson, U.: Separation of enantiomers of alpha-hydroxy acids by reversed-phase liquid chromatography after derivatization with 1-(9-fluorenyl)ethyl chloroformate, J. Chromatography A, 827(1) 31-36 (1998) Hyun, M.H., Kang, M.H., Han, S.C.: Liquid chromatographic resolution of 2- hydroxycarboxylic acids a new chiral stationary phase derived from (S)-leucine, J. Chromatography A, 868(1) 31-39 (2000) Horvath E., Kristof J., Frost, R.L., et al.: Investigation of mandelic acid bonding on Pirkle type chromatographic stationary phases by Raman spectroscopy, J. Chromatography A, 893(1) 37-46 (2000) 5

Mori, H., Shiraki, S.: Determination of D-Malate using immobilized D-Malate dehydrogenase in a flow system and its application to analyze the D-Malate content of beverages, J Health Sci, 54 (1) 72-75 (2008) Felix, G., Berthod, A.: Commercial chiral stationary phases for the separations of clinical racemic drugs - Part I: From alimentary tract to cardiovascular system drugs, Separ Purifi Review, 36 (3-4) 285-481 (2007) 12. Csányi, E., Bélafi-Bakó, K., Harasek, M., Friedl, A., Sisak, Cs., Gubicza, L.: Ethanol Removal from Fermentation Broth by Enzymatic Esterification, Med. Fac. Landbouww. Univ. Gent, 63/4b 1549-52 (1998) (2 hiv.) Oliveira, A.C., Rosa, M.F., Aires-Barros, M.R., Cabral, J.M.S.: Enzymatic esterification of ethanol by an immobilised Rhizomucor miehei lipase in a perforate rotating disc bioreactor, Enzyme Microbial Technol. 26 446-450 (2000) Heinsman, N.W.J.T., Van der Weide, P.L.J., Van der Padt, A., Franssen, M.C.R., Boom, R.M., Van t Reit, K.: Reactor design for the Novozym 435 (R)-catalysed enantioselective esterification of 4-methyloctanoic acid, Biocatal. Biotransform. 20(6) 429-436 (2002) 13.Ulbert, O., Szarka, Á., Halasi, B., Bélafi-Bakó, K., Gubicza, L.: Action of Candida rugosa lipase in carvone isomers as solvents, Biotechnol. Techn. 13 299-302 (1999) (IF=0,613; 6 hiv) Barros, R.J. et al.. Enzyme Microb. Tech. 24 480 (1999) Koller, G.et al.: BIOCATAL BIOTRANSFOR 19 37-49 (2001) Baudequin C, Baudoux J, Levillain J, et al.: Ionic liquids and chirality: opportunities and challenges, TETRAHEDRON-ASYMMETR 14 (20): 3081-3093 (2003) Pegot B, Vo-Thanh G, Gori D, et al.: First application of chiral ionic liquids in asymmetric Baylis-Hillman reaction TETRAHEDRON LETTERS 45 (34): 6425-6428 (2004) Baudequin, C., Brégeon, D., Levillain, J., Guillen, F., Plaquevent, J.-C., Gaumont, A.-C.: Chiral ionic liquids, a renewal for the chemistry of chiral solvents? Design, synthesis and applications for chiral recognition and asymmetric synthesis, Tetrahedron Asymmetry 16 (24), pp. 3921-3945 2005 Durand, J., Teuma, E., Gómez, M.: Ionic liquids as a medium for enantioselective catalysis, Comptes Rendus Chimie 10 (3), pp. 152-177, 2007 14.Csányi, E., Bélafi-Bakó, K.: Semi-continuous fatty acid production by lipase, Hung. J. Ind. Chem. 27(4) 293-5 (1999) (IF=0,294; -) 15. Keöves, E., Csányi, E., Bélafi-Bakó, K., Gubicza, L.: Membrane Reactors for biochemical reactions, Hung, J. Ind. Chem. Különszám, 41-2 (1999) (IF=0,294; -) 16. Bélafi-Bakó, K., Kabiri-Badr, A., Szamosszegi, V., Keöves, E., Koszorz, Z. Gubicza, L.: Production of natural flavour esters by lipase in integrated system, Med. Fac. Landbouww. Univ. Gent, 64/5a, 311-4 (1999) (-) 17.Gubicza, L., Kabiri Badr, A., Keöves, E., Bélafi-Bakó, K.: Large scale enzymatic production of natural flavour esters in organic solvent with continuous water removal, J. Biotechnol. 84(2) 193-6 (2000) (IF=1,651; 26 hiv.) Meissner, J.P., Carta, G.: Continuous regioselective enzymatic esterification in a simulated moving bed reactor, Ind. Eng. Chem. Res. 41(19) 4722-4732 (2002) Güvenc, A., Kapucu, N., Mehmetoglu, Ü.: The production of isoamyl acetate using immobilized lipases in a solvent-free system, Proc. Biochem. 38 1-8 (2002) 6

Karra-Chaabouni M, Pulvin S, Thomas D, et al.: Role of water activity on the synthesis of geranyl butyrate by a Mucor miehei esterase in a solvent-free system, Biotechnol. Lett. 24 (23) 1951-1955 (2002) Karra-Chaabouni M, Zouari N, Frikha O, et al.: Synthesizing natural flavours and reducing oil acidity level in a solvent-free system, OCL-OL CORPS GRAS LI 9 (4) 260-263 (2002) Karra-Chaabouni M, Pulvin S, Thomas D, et al.: Role of water activity on the synthesis of geranyl butyrate by a Mucor miehei esterase in a solvent-free system, BIOTECHNOLOGY LETTERS 24 (23): 1951-1955, 2002 Macedo GA, Lozano MMS, Pastore GM: Enzymatic synthesis of short chain citronellyl esters by a new lipase from Rhizopus sp, ELECTRON J BIOTECHN 6 (1) 72-75 (2003) Guvenc A, Kapucu N, Bayraktar E, et al: Optimization of the enzymatic production of isoamyl acetate with Novozym 435 from Candida antarctica, CHEM ENG COMMUN 190 (5-8) 948-961 2003 Koszorz Z, Ziobrowski Z, Krupiczka R: Esterification kinetics of phthalic anhydride with ethanol on sulfuric acid catalyst, INZ CHEM PROCESOWA 24(1): 131-138 2003 Koszorz, Z., Ziobrowski, Z., Krupiczka, R.: Temperature influence on kinetics of esterification reaction of phthalic anhydride and ethanol catalyzed by sulphuric acid, Inz Chem Procesowa, 25 (3) 1127-1132 (2004) Koszorz, Z., Nemestothy, N., Ziobrowski, Z., et al.: Influence of pervaporation process parameters on enzymatic catalyst deactivation, Desalination, 162 (1-3) 307-313 (2004) Romero, MD., Calvo, L., Alba, C., et al.: Enzymatic synthesis of isoamyl acetate with immobilized Candida antarctica lipase in n-hexane, Enzyme Microb Tech, 37 (1) 42-48 (2005) Gryglewicz, S., Oko, FA.: Synthesis and biosynthesis of oligomeric sebacates as lubricant oils, Industrial and Engineering Chemistry Research, 44, (6) 1640-1644 (2005) Romero, MD., Calvo, L., Alba, C., et al.: Enzymatic synthesis of isoamyl acetate with immobilized Candida antarctica lipase in supercritical carbon dioxide, J Supercrit Fluid, 33 (1) 77-84 (2005) Longo MA, Sanroman MA: Production of food aroma compounds: Microbial and enzymatic methodologies, FOOD TECHNOLOGY AND BIOTECHNOLOGY 44 (3): 335-353 (2006) Nakasaki K, Kwon SH, Tanaka H, et al.: Suppression of malodor from garbage during storage periods by yeast producing fragrances, PROCESS BIOCHEMISTRY 41 (9): 1932-1939 (2006) Izci, A., Hosg u n, H.L.: Kinetics of synthesis of isobutyl propionate over amberlyst-15, Turkish Journal of Chemistry 31 (5), pp. 493-499, 2007 Santos, J.C., Bueno, T., Molgero da Rós, P.C., De Castro, H.F.: Lipase-catalyzed synthesis of butyl esters by direct esterification in solvent-free system, Journal of Chemical Technology and Biotechnology 82 (10), pp. 956-961, 2007 Bancerz, R., Ginalska, G.: A novel thermostable lipase from Basidiomycete Bjerkandera adusta R59: Characterisation and esterification studies, Journal of Industrial Microbiology and Biotechnology 34 (8), pp. 553-560, 2007 Trusek-Holownia, A., Noworyta, A.. An integrated process: Ester synthesis in an enzymatic membrane reactor and water sorption, Journal of Biotechnology 130 (1), pp. 47-56, 2007 7

Dijkstra, Z.J., Merchant, R., Keurentjes, J.T.F.: Stability and activity of enzyme aggregates of Calb in supercritical CO2, Journal of Supercritical Fluids 41 (1), pp. 102-108, 2007 Jeromin, GE., Zoor, A.: A new irreversible enzyme-aided esterification method in organic solvents, Biotechnol Lett, 30 (5) 925-928 (2008) Varma, MN., Madras, G.: Effect of chain length on enzymatic hydrolysis of p- nitrophenyl esters in supercritical carbon dioxide, Appl Biochem Biotech, 144 (3) 213-223 (2008) Modelling and experimental studies on lipase-catalyzed isoamyl acetate synthesis in a microreactor Author(s): Znidarsic-Plazl P, Plazl I, Source: PROCESS BIOCHEMISTRY Volume: 44 Issue: 10 Pages: 1115-1121, 2009 Biosynthesis of ethyl caproate and other short ethyl esters catalyzed by cutinase in organic solvent Author(s): de Barros DPC, Fonseca LR, Fernandes R, et al., Source: JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC Volume: 60 Issue: 3-4 Pages: 178-185 Published: OCT 2009 Synthesis of Isoamyl Acetate of Isoamyl Alcohol Obtained from Fusel Oil using Immobilized Candida Antarctica Lipase Author(s): Bi F, Iqbal S, Ali A, et al., Source: JOURNAL OF THE CHEMICAL SOCIETY OF PAKISTAN Volume: 31 Issue: 3 Pages: 485-491 Published: JUN 2009 In situ Product Recovery Integrated with Biotransformations Author(s): Bechtold M, Panke S, Source: CHIMIA Volume: 63 Issue: 6 Pages: 345-348 Published: 2009 18.Szabó, P.L., Szotyory, L., Kalló, D., Bélafi-Bakó, K., Nagy, E.: Comparison of D,Lmandelic acid resolution on zeolite and silica pirkle-type chiral stationary phases, Mikrochim. Acta, 134 205-13 (2000) (IF=1,303; -) 19.Bélafi-Bakó, K., Kabiri-Badr, A., Dörmı, N., Gubicza, L.: Pervaporation and its application as downstream or integrated process, Hung. J. Ind. Chem. 28 175-9 (2000) (IF=0,196; 8 hiv.) Békássyné Molnár E., Vatai Gy.: A membrántechnika környezetvédelmi alkalmazásai, Magyar Kémikusok Lapja, 56(10) 369-371 (2001) Vincze I., Vatai Gy.: Kávéextraktum besőrítése nanoszőrı eljárással, Mőszaki Kémiai Napok, Veszprém, 2003, Proceedingek, pp. 81-86 Vincze I, Vatai G.: Application of nanofiltration for coffee extract concentration, DESALINATION 162 (1-3): 287-294 (2004) Vincze I., Vatai Gy.: Kávéextraktum besőrítése nanoszőréssel: modellezés és gazdaságossági vizsgálatok, Membrántechnikai Konferencia, Budapest, 2004, Proceedingek, pp. 61-66 Garhyan P, Elnashaie SSEH: Utilization of mathematical models to investigate the bifurcation and chaotic behavior of ethanol fermentors, MATHEMATICAL AND COMPUTER MODELLING 39 (4-5): 381-427 2004 Vincze, I., Stefanovitsné B.É., Ábrók Zs., Vatai Gy.: Homoktövis lé sőrítmény elıállítása membránszőréssel, Olaj, Szappan Kozmetika, 55 (2006) 90-93 Ghosh, K., Ramachandran, KB.: Analysis of the effect of in situ product removal on the stability and performance of a continuous bioreactor with cell separator for ethanol production, Chem Biochem Eng Quarterly, 21 (3) 285-296 (2007) Takács, L., Vatai, Gy.: Mass transfer characteristics of isopropanol pervaporative dehydration through CMC-CA-01 membrane, Hung. J. Ind. Chem. 36 119-1239 (2008) 20.Gubicza, L., Székely, K., Ulbert, O., Bélafi-Bakó, K.: Enhancement of the thermostability of Candida cylindracea lipase by medium engineering, Chem. Papers, 54(6a) 350-354 8

(2000) (IF=0,154; 2 hiv.) PoŁeć, I., Komorowska-Kulik, J., Legocki, J.: Chiral chemistry and technology of agrochemicals [Chemia i technologia chiralna w środkach ochrony roślin], Przemysl Chemiczny 86 (6), pp. 530-533, 2007 Simultaneous rice bran oil stabilization and extraction using sub-critical water medium, Author(s): Pourali O, Asghari FS, Yoshida H, Source: JOURNAL OF FOOD ENGINEERING Volume: 95 Issue: 3 Pages: 510-516 Published: DEC 2009 21.Nemestóthy, N., Kelemen-Horváth, I., Bélafi-Bakó, K., Gubicza, L.: Enzymatic reduction of phenylpropionaldehyde, Med. Fac. Landbouww. Gent, 66(3a) (2001) 313-316 (-) 22.Koutinas, A., Bélafi-Bakó, K., Kabiri-Badr, A., Tóth, A., Gubicza, L., Webb, C.: Enzymatic hydrolysis of polysaccharides, Hydrolysis of starch by an enzyme complex from fermentation by Aspergillus awamori, Food and Bioproducts Processing, Transactions IchemE, Part C, 79 41-45 (2001) (IF=0,500; 6 hiv.) Ribeiro, L.: Cellulose hydrolysis using a membrane bioreactor, M.Sc. thesis, UMIST (Manchester, UK) 2001 Fujii T., Engineering studies on membrane and membrane processes for food industry, NIPPON NOGEIKAGAKU KAISHI-JOURNAL OF THE JAPAN SOCIETY FOR BIOSCIENCE BIOTECHNOLOGY AND AGROCHEMISTRY 78 (12): 1148-1155 (2004) Botella C, de Ory I,et al. Hydrolytic enzyme production by Aspergillus awamori on grape pomace, BIOCHEMICAL ENGINEERING JOURNAL 26 (2-3): 100-106, 2005 Du C, Lin SKC, et al.: Succinic acid production from wheat using a biorefining strategy, APPLIED MICROBIOLOGY AND BIOTECHNOLOGY 76 (6): 1263-1270, 2007 Cereal-based biorefinery development: Utilisation of wheat milling by-products for the production of succinic acid, Author(s): Dorado MP, Lin SKC, et al. Source: JOURNAL OF BIOTECHNOLOGY Volume: 143 Issue: 1 Pages: 51-59 Published: AUG 10 2009 Study on the influence of the so-called filtration enzyme action on the membrane filtration process of wheat starch hydrolysates Author(s): Slominska L, Niedbach J, Source: DESALINATION Volume: 241 Issue: 1-3 Pages: 296-301 Published: MAY 31 2009 23.Nemestóthy, N., Ribeiro, L., Tóth, A., Bélafi-Bakó, K., Gubicza, L., Webb, C.: Kinetics of enzymatic hydrolysis of polysaccharides, Med. Fac. Landbouww. Gent, 66(3a) (2001) 191-194 (-, 1 hiv.) Sěres, Z., Gyura, J., Eszterle, M., Djurić, M.: Separation of non-sucrose compounds from syrup as a part of the sugar-beet production process by ultrafiltration with ceramic membranes, European Food Research and Technology 223 (6), pp. 829-835, 2006 24.Kelemen-Horváth, I., Nemestóthy, N., Bélafi-Bakó K., Gubicza, L.: Stereoselective reduction of 2-phenylpropionaldehyde by alcohol dehydrogenase with cofactor regeneration, Chem. Papers 56 (2002) 52-56 (IF=0,336; 1 hiv.) Hadik P, Kotsis L, Eniszne-Bodogh M, et al.: Lactic acid enantio separation by means of porous ceramic disc and hollow fiber organic membrane, SEPARATION AND PURIFICATION TECHNOLOGY 41 (3): 299-304 (2005) 25.Bélafi-Bakó, K., Dörmı, N., Ulbert, O., Gubicza, L.: Application of pervaporation for removal of water produced during enzymatic esterification in ionic liquids, Desalination 9

149 (2002) 267-268 (IF=0,517; 16 hiv.) Xu XB: Engineering of enzymatic reactions and reactors for lipid modification and synthesis, EUR J LIPID SCI TECH 105(6) 289-304 (2003) Park S, Kazlauskas RJ: Biocatalysis in ionic liquids - advantages beyond green technology CURR OPIN BIOTECH 14 (4): 432-437 (2003) Li X, Geng Y, Simonsen J, et al.: Application of ionic liquids for electrostatic control in wood HOLZFORSCHUNG 58 (3): 280-285 (2004) Izak P, Mateus NMM, Afonso CAM, et al.: SEPARATION AND PURIFICATION TECHNOLOGY 41 (2): 141-145 FEB 2005 Krieger N, Bhatnagar T, Baratti JC, et al.: FOOD TECHNOLOGY AND BIOTECHNOLOGY 42 (4): 279-286 OCT-DEC 2004 Park SC, Chang WJ, Lee SM, et al.: BIOTECHNOLOGY AND BIOPROCESS ENGINEERING 10 (1): 99-102 JAN-FEB 2005 Zhu, B.-K., Tian, X.-Z., Xu, Y.-Y.: Recovering ethyl acetate from aqueous solution using P(VDF-co-HFP) membrane based pervaporation, Desalination 184 (1-3), pp. 71-78, 2005 Moon YH, Lee SM, Ha SH, et al.: Enzyme-catalyzed reactions in ionic liquids, KOREAN JOURNAL OF CHEMICAL ENGINEERING 23 (2): 247-263, 2006 Sakaki, K., Aoyama, A., Nakane, T., Ikegami, T., Negishi, H., Watanabe, K., Yanagishita, H.: Enzymatic synthesis of sugar esters in organic solvent coupled with pervaporation, Desalination 193 (1-3), pp. 260-266, 2006 Harjani JR, Naik PU, Nara SJ, et al.: Enzyme mediated reactions in ionic liquids, CURRENT ORGANIC SYNTHESIS 4 (4): 354-369, 2007 Cantone S, Hanefeld U, Basso A: Biocatalysis in non-conventional media-ionic liquids, supercritical fluids and the gas, GREEN CHEMISTRY 9 (9): 954-971, 2007 Rios GM, Belleville MP, Paolucci-Jeanjean D: Membrane engineering in biotechnology: quo vamus?, TRENDS IN BIOTECHNOLOGY 25 (6): 242-246, 2007 de Maria, PD.: "Nonsolvent" applications of ionic liquids in biotransformations and organocatalysis. Ang Chem-Int Ed, 47 (37) 6960-6968 (2008) Lipase-catalyzed glycerolysis in ionic liquids directed towards diglyceride synthesis, Author(s): Kahveci D, Guo Z, Ozcelik B, et al. Source: PROCESS BIOCHEMISTRY Volume: 44 Issue: 12 Pages: 1358-1365 Published: DEC 2009 Biocatalytic reactions in hydrophobic ionic liquids, Author(s): Sureshkumar M, Lee CK Source: JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC Volume: 60 Issue: 1-2 Pages: 1-12 Published: SEP 2009 Reactivity of Bronsted acid ionic liquids as dual solvent and catalyst for Fischer esterifications Author(s): Wei ZJ, Li FJ, Xing HB, et al. Source: KOREAN JOURNAL OF CHEMICAL ENGINEERING Volume: 26 Issue: 3 Pages: 666-672 Published: MAY 2009 26.Bélafi-Bakó, K., Kovács, F., Gubicza, L., Hancsók, J.: Enzymatic biodiesel production from sunflower oil by Candida antarctica lipase in a solvent-free system, Biocat. Biotrans. 20 (2002) 437-439 (IF=0,928; 39 hiv.) Vasudevan PT, Lopez-Cortes N, Caswell H, et al.: A novel hydrophilic support, CoFoam, for enzyme immobilization, BIOTECHNOL LETT 26 (6): 473-477 2003 Shah S., Sharma S., Gupta MN.: Enzymatic transesterification for biodiesel production, INDIAN J BIOCHEM BIO 40 (6): 392-399 (2003) Kovács András: Biodízel Technológia, Nádasdy Nyomda és Kiadó Kft., 2003 Shah S., Sharma S., Gupta MN.: Biodiesel preparation by lipase-catalyzed transesterification of Jatropha oil, ENERG FUEL 18 (1): 154-159 2(004) 10

Hayes DG: JOURNAL OF THE AMERICAN OIL CHEMISTS SOCIETY 81 (12): 1077-1103 (2004) Dra. Celina Luízar Obregón: Obtenção de biodiesel através da transesterificação enzimática: energia alternativa para auto-desenvolvimento, PRÊMIO MERCOSUL DE CIÊNCIA E TECNOLOGIA, 2004 Gaidamauskas, E.: Immobilization of lipase from Thermomyces lanuginosus and enzyme-catalyzed enantioselective alcoholysis of vinyl acetate with 2-ethyl -1- hexanol, Chemija. 2004. T. 15. Nr. 2. P.37-43 Xu YY, Du W, Liu DH: JOURNAL OF MOLECULAR CATALYSIS B- ENZYMATIC 32 (5-6): 241-245 (2005) KOVACS A, HAAS L,: OLAJ, SZAPPAN, KOZMETIKA 54(1)1-7 2005 Salis, A, Pinna, M, Monduzzi, M, Solinas, V: Biodiesel production from triolein and short chain alcohols through biocatalysis, J. Biotechnol. 119 (3): 291-299 (2005) Barnes, L.L.: Biodiesel Research: A bibliography and finding aid, WMRC Reports, 2006 március, TN06-085 Wang L, Du, W, et al.: Lipase-catalyzed biodiesel production from soybean oil deodorizer distillate with absorbent present in tert-butanol system, J. Mol. Cat. Enzymatic 43, 29-32 (2006) Sanchez F, Vasudevan PT: Enzyme catalyzed production of biodiesel from olive oil, APPLIED BIOCHEMISTRY AND BIOTECHNOLOGY 135 (1): 1-14, 2006 Lee, S.Y., Hubbe, M.A., Saka, S.: Procpect for biodiesel as a byproduct of wood pulping a review, BioResources, 1(1), 2006, 150-171. Li, L., Du, W., Liu, D., LI, Z., Wang, L.: Lipase-catalyzed Production of Biodiesel from Several Oils in a Novel Reaction Medium, THE CHINESE JOURNAL OF PROCESS ENGINEERING, 2006, Vol. 6 (5), pp. 799-803 Li LL, Du W, Liu DH, et al.: Lipase-catalyzed transesterification of rapeseed oils for biodiesel production with a novel organic solvent as the reaction medium, JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC 43 (1-4): 58-62 Sp. Iss. SI, 2006 Vivek Rathore, Giridhar Madras.: Synthesis of biodiesel from edible and non-edible oils in supercritical alcohols and enzymatic synthesis in supercritical carbon dioxide Fuel, (nyomtatás alatt), 2007 Salis, A., M., Monduzzi, M., Solinas, V.: Use of Lipases for the Production of Biodiesel, Industrial Enzymes, 2007, 317-339, 10.1007/1-4020-5377-0_19 Shah S, Gupta MN: Lipase catalyzed preparation of biodiesel from Jatropha oil in a solvent free system, PROCESS BIOCHEMISTRY 42 (3): 409-414, 2007 Rathore V, Madras G: Synthesis of biodiesel from edible and non-edible oils in supercritical alcohols and enzymatic synthesis in supercritical carbon dioxide, FUEL 86 (17-18): 2650-2659, 2007 Coggon R, Vasudevan PT, Sanchez F: Enzymatic transesterification of olive oil and its precursors, BIOCATALYSIS AND BIOTRANSFORMATION 25 (2-4): 135-143, 2007 Su EZ, Xu WQ, Gao KL, et al.: Lipase-catalyzed in situ reactive extraction of oilseeds with short-chained alkyl acetates for fatty acid esters production, JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC 48 (1-2): 28-32, 2007 K.G. Harding, J.S. Dennis, H. von Blottnitz and S.T.L. Harrison.: A life-cycle comparison between inorganic and biological catalysis for the production of biodiesel Journal of Cleaner Production, 16 (13) 1368-1378 (2008) Mu, Y., Xiu, Z.-L., Zhang, D.-J.: A combined bioprocess of biodiesel production by lipase with microbial production of 1,3-propanediol by Klebsiella pneumoniae, Biochem Eng J, 40 (3) 537-541 (2008) 11

Torres, P., Reyes-Duarte, D., Lopez-Cortez, N., et al.: Acetylation of vitamin E by Candida antarctica lipase B immobilized on different carriers, Process Biochem, 43 (2) 145-154 (2008) Salis, A., Pinna, M., Monduzzi, M., Solinas, V.: Comparison among immobilised lipases on macroporous polypropylene toward biodiesel synthesis, J Mol Catal B- Enzym, 54 (1-2) 19-26 (2008) Shah, S., Gupta, MN.: The effect of ultrasonic pre-treatment on the catalytic activity of lipase in aqueous and non-aqueous media, Chemistry Central Journal, 2 (1) art.no.1. (2008) Manzanera, M., Molina-Munoz, ML., Gonzalez-Lopez, J.: Biodiesel: An alternative fuel, RP Biotech, 2 (1) 25-34 (2008) Ranaganathan, SV., Narasimhan, SL., Muthukumar, K.: An overview of enzymatic production of biodiesel, Bioresource Technol, 99 (10) 3975-3981 (2008) Vasudevan, PT., Briggs, M.: Biodiesel production-current state of the art and challenges, J Ind Microbiol Biot, 35 (5) 421-430 (2008) Zheng, YG., Chen, XL., Shen, YC.: Commodity Chemicals Derived from Glycerol, an Important Biorefinery Feedstock. Chem. Rev., 108 (12) 5253-5277 (2008) Jegannathan, KR., Abang, S., Poncelet, D., et al.: Production of Biodiesel Using Immobilized LipaseA Critical Review. Crit. Rev. Biotechnol., 28 (4) 253-264 (2008) Wichmann, H., Sahlabji, T., Ohnesorge, M., et al.: Feasibility Study on Membrane Aided Clean up and Fractionation of Fatty Acid Esters Produced from Waste Fats. Clean-Soil Air Water, 36 (10-11) 840-844 (2008) Rodrigues, RC., Volpato, G., Wada, K., et al.: Enzymatic synthesis of biodiesel from transesterification reactions of vegetable oils and short chain alcohols. J Am Oil Chem Soc, 85 (10) 925-930 (2008) Highly efficient procedure for the synthesis of biodiesel from soybean oil, Author(s): Liang XZ, Gao S, Wu HH, et al. Source: FUEL PROCESSING TECHNOLOGY Volume: 90 Issue: 5 Pages: 701-704 Published: MAY 2009 Jatropha curcas: A Review, Author(s): Carels N, Source: ADVANCES IN BOTANICAL RESEARCH, VOL 50 Book Series: ADVANCES IN BOTANICAL RESEARCH INCORPORATING ADVANCES IN PLANT PATHOLOGY Volume: 50 Pages: 39-86 Published: 2009 A Review of the Current State of Biodiesel Production Using Enzymatic Transesterification, Author(s): Fjerbaek L, Christensen KV, Norddahl B, Source: BIOTECHNOLOGY AND BIOENGINEERING Volume: 102 Issue: 5 Pages: 1298-1315 Published: APR 1 2009 Highly efficient procedure for the synthesis of biodiesel from soybean oil using chloroaluminate ionic liquid as catalyst, Author(s): Liang XZ, Gong GZ, Wu HH, et al. Source: FUEL Volume: 88 Issue: 4 Pages: 613-616, 2009 27.Bélafi-Bakó, K., Nemestóthy, N., Milisic, V., Gubicza, L.: Membrane bioreactor for utilisation of carbohydrates in waste streams, Desalination, 149 (2002) 329-330 (IF=0,517; -) 28.Gubicza, L., Nemestóthy, N., Fráter T., Bélafi-Bakó, K.: Enzymatic esterification in ionic liquids integrated with pervaporation for water removal, Green Chem. 5 (2003) 236-239 (IF=2,82; 38 hiv.) Swatloski RP, Holbrey JD, Rogers RD: Ionic liquids are not always green: hydrolysis of 1-butyl-3-methylimidazolium hexafluorophosphate, GREEN CHEM 5(4): 361-363 (2003) Nara SJ, Harjani JR, Salunkhe MM: Ionic liquids: the new generation solvents, JOURNAL OF THE INDIAN CHEMICAL SOCIETY 80 (12): 1153-1161 2003 12

Branco LC, Afonso CAM: Ionic liquids as a convenient new medium for the catalytic asymmetric dihydroxylation of olefins using a recoverable and reusable osmium/ligand JOURNAL OF ORGANIC CHEMISTRY 69 (13): 4381-4389 (2004) Baker SN, McCleskey TM, Pandey S, et al.: Fluorescence studies of protein thermostability in ionic liquids CHEMICAL COMMUNICATIONS (8): 940-941 (2004) Mohile SS, Potdar MK, Harjani JR, et al.: Ionic liquids: efficient additives for Candida rugosa lipase-catalysed enantio selective hydrolysis of butyl 2-(4- chlorophenoxy)propionate JOURNAL OF MOLECULAR CATALYSIS B- ENZYMATIC 30 (5-6): 185-188 (2004) Chen IH, Young JN, Yu SJ: Recyclable organotungsten Lewis acid and microwave assisted Diels-Alder reactions in water and in ionic liquids, TETRAHEDRON 60 (51): 11903-11909 2004 Izak, P., et al.: Enhanced esterification conversion in a room temperature ionic liquid by integrated water removal with pervaporation, Sep. Purif. Techn. 41 141-145 (2005) Yung KKL, Perera JM, Smith CD, et al.: The partitioning behavior of tyramine and 2- methoxyphenethylamine in a room temperature ionic liquid-water system compared to traditional organic-water system, SEPARATION SCIENCE AND TECHNOLOGY 40 (7): 1555-1566 2005 Schafer T, Branco LC, Fortunato R, et al.: Opportunities for membrane separation processes using ionic liquids, ACS SYMPOSIUM SERIES 902: 97-110 2005 Guo Z, Xu XB: New opportunity for enzymatic modification of fats and oils with industrial potentials, ORGANIC & BIOMOLECULAR CHEMISTRY 3 (14): 2615-2619 2005 Pernak A, Iwanik K, Majewski P, et al.: Ionic liquids as an alternative to formalin in histopathological diagnosis, ACTA HISTOCHEMICA 107 (2): 149-156 2005 Petersson AEV, Gustafsson LM, Nordblad M, et al. GREEN CHEMISTRY 7 (12): 837-843 2005 Tseng MC, Liang YM, Chu YH Synthesis of fused tetrahydro-betacarbolinequinoxalinones in (([bdmim][tf2n])) and ([bdmim][pfbuso3]) ionic liquids, TETRAHEDRON LETTERS 46 (36): 6131-6136 (2005) Won, K, Hong, JK, Kim, KJ, Moon, SJ: Lipase catalysed enantioselective esterification of racemic ibuprofen coupled with pervaporation, Proc. Biochem. 41(2) 264-269 (2006) Buzzeo MC, Hardacre C, Compton RG: CHEM. PHYS. CHEM 7 (1): 176-180 (2006) Green Separation Processes, Ed. By Afonso, CAM, Crespo, JG, Wiley VCH, 2006 Nara SJ, Naik PU, Harjani JR, et al.: Potential of ionic liquids in greener methodologies involving biocatalysis and other synthetically important transformations, INDIAN JOURNAL OF CHEMISTRY SECTION B-ORGANIC CHEMISTRY INCLUDING MEDICINAL CHEMISTRY 45 (10): 2257-2269 (2006) Barahona D, Pfromm PH, Rezac ME: Effect of water activity on the lipase catalyzed esterification of geraniol in ionic liquid [bmim]pf6, BIOTECHNOLOGY AND BIOENGINEERING 93 (2): 318-324, 2006 Izak P, Hovorka S, Bartovsky T, et al.: Swelling of polymeric membranes in room temperature ionic liquids, JOURNAL OF MEMBRANE SCIENCE 296 (1-2): 131-138, 2007 Harjani, J.R., Nara, S.J., Naik, P.U., Salunkhe, M.M.: Ionic liquids: Neoteric solvents for organic and biocatalytic transformations, ACS Symposium Series 950, pp. 194-208, 2007 13

Harjani, J.R., Naik, P.U., Nara, S.J., Salunkhe, M.M.: Enzyme mediated reactions in ionic liquids, Current Organic Synthesis 4 (4), pp. 354-369, 2007 Villeneuve, P.: Lipases in lipophilization reactions, Biotechnology Advances 25 (6), pp. 515-536, 2007 Petersson, A.E.V., Adlercreutz, P., Mattiasson, B.: A water activity control system for enzymatic reactions in organic media, Biotechnology and Bioengineering 97 (2), pp. 235-241, 2007 van Rantwijk, F., Sheldon, R.A.: Biocatalysis in ionic liquids, Chemical Reviews 107 (6), pp. 2757-2785, 2007 Ma, X., Jiang, T., Han, B., Zhang, J., Miao, S., Ding, K., An, G., (...), Zhu, A.: Palladium nanoparticles in polyethylene glycols: Efficient and recyclable catalyst system for hydrogenation of olefins, Catalysis Communications 9 (1), pp. 70-74, 2008 Carrea, G., Riva, S.: Organic Synthesis with Enzymes in Non-Aqueous Media, Wiley- VCH Verlag BmbH and Co. KGaA, Weinheim (2008) Shen, JH., Wang, H., Liu, HC., et al.: Bronsted acidic ionic liquids as dual catalyst and solvent for environmentally friendly synthesis of chalcone, J Mol Catal A-Chem, 280 (1-2) 24-28 (2008) Martak, J., Schlosser, S., Vlckova, S.: Pertraction of lactic acid through supported liquid membranes containing phosphonium ionic liquid, J Membrane Sci, 318 (1-2) 298-310 (2008) Wasserscheid, P., Welton, T.: Ionic liquids in Synthesis, Wiley-VCH Verlag BmbH and Co. KGaA, Weinheim (2008), 2 nd edition Taylor, AW., Qiu, FL., Hu, JP., et al.: Heterogeneous Electron Transfer Kinetics at the Ionic Liquid/Metal Interface Studied Using Cyclic Voltammetry and Scanning Electrochemical Microscopy. J Phys Chem B, 112 (42) 13292-13299 (2008) Rios, APDL., Hernandez-Fernandez, FJ., Tomas-Alonso, F., et al.: Synthesis of flavour esters using free Candida antarctica lipase B in ionic liquids. Flav Frag J, 23 (5) 319-322 (2008) de Maria, PD.: "Nonsolvent" applications of ionic liquids in biotransformations and organocatalysis. Ang Chem-Int Ed, 47 (37) 6960-6968 (2008) Lipase-catalyzed glycerolysis in ionic liquids directed towards diglyceride synthesis Author(s): Kahveci D, Guo Z, Ozcelik B, et al., Source: PROCESS BIOCHEMISTRY Volume: 44 Issue: 12 Pages: 1358-1365 Published: DEC 2009 Efficient enzymatic preparation of hydroxycinnamates in ionic liquids enhances their antioxidant effect on lipoproteins oxidative modification Author(s): Katsoura MH, Polydera AC, Tsironis LD, et al. Source: NEW BIOTECHNOLOGY Volume: 26 Issue: 1-2 Special Issue: Sp. Iss. SI Pages: 83-91 Published: OCT 1 2009 Bornyl acetate conversion enhancement by pervaporation in ionic liquid Author(s): Izak P, Hovorka S, Randova A, et al., Source: PLANTA MEDICA Volume: 75 Issue: 9 Pages: 1023-1024 Published: JUL 2009 A New Series of Ionic Liquids Based on the Difluorophosphate Anion, Author(s): Matsumoto K, Hagiwara R, Source: INORGANIC CHEMISTRY Volume: 48 Issue: 15 Pages: 7350-7358 Published: AUG 3 2009 Biocatalytic reactions in hydrophobic ionic liquids, Author(s): Sureshkumar M, Lee CK, Source: JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC Volume: 60 Issue: 1-2 Pages: 1-12 Published: SEP 2009 Lipases in water-in-ionic liquid microemulsions: Structural and activity studies Author(s): Pavlidis IV, Gournis D, Papadopoulos GK, et al., Source: JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC Volume: 60 Issue: 1-2 Pages: 50-56 Published: SEP 2009 14

29.Ehrenstein, U., Kabasci, S., Kümmel, R., Dörmı, N., Bélafi-Bakó, K., Gubicza, L.: Entwicklung eines integrierten Verfahrens zur Herstellung natürlicher Aromaester, Chem. Ing. Techn. 75 (2003) 291-294 (IF=0,330; 1 hiv.) Pereira CC, Ribeiro CP, Nobrega R, et al. Pervaporative recovery of volatile aroma compounds from fruit juices J. MEMBR. SCI. 274 (1-2): 1-23 (2006) 30.Bélafi-Bakó, K. Kabiri Badr, A., Nemestóthy, N., Ehrenstein, U., Gubicza, L.: Kinetics of ethyl acetate production by lipase in organic solvent and solvent-free system, Chem. Papers, 57 (2003) 277-280 (IF=0,336; 3 hiv.) Tonova, K., Lazarova, Z.: Modelling of enzymatic esterification kinetics with respect to the substrates ratio, Bulg. Chem. Comm. 41 (2009) 323-329 Tonova, K.: Studies on the reversed micelles as media for enzyme purification and enzyme catalyzed reactions, PhD thesis, Sofia, 2009 Production and regulation of different lipase activities from Rhizopus chinensis in submerged fermentation by lipids Author(s): Teng Y, Xu Y, Wang D Source: JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC Volume: 57 Issue: 1-4 Pages: 292-298 Published: MAY 2009 31.Fráter, T., Ulbert, O., Bélafi-Bakó, K., Gubicza, L.: Thermal stability of Candida rugosa lipase in ionic liquids, Comm. Agricult. Appl. Biol. Sci., 68(2a) (2003) 293-196 (-, 2 hiv.) Yang, Z, Pan, W: Ionic liquids: green solvents for nonaqueous biocatalysis, Enz. Microbial Technol. 37 (2005) 19-28 Baker GA, Baker SN: A simple colorimetric assay of ionic liquid hydrolytic stability, AUSTRALIAN JOURNAL OF CHEMISTRY 58 (3): 174-177 2005 32.Ulbert, O., Bélafi-Bakó, K., Gubicza, L.: Developments of resolution reaction catalysed by lipases in non-conventional media: production of chiral carboxylic acids possessing biological activity, Chem. Listy 97 (2003) 348 (IF=0,336; 1 hiv) Pereira, CC., Ribeiro, Jr., CP., Nobrega, R., Borges, CP.: Pervaporative recovery of volatile aroma compounds from fruit juices, J Mebrane Sci, 274 (1-2) 1-23 (2006) 33.Alves, V., Koroknai, B., Bélafi-Bakó, K., Coelhoso, I.: Using membrane contactors for fruit juice concentration, Desalination 162 (2004) 263-270 (IF=1,057; 3 hiv.) Seres Z, Gyura J, Eszterle M, et al.: Separation of non-sucrose compounds from syrup as a part of the sugar-beet production process by ultrafiltration with ceramic membranes, EUROPEAN FOOD RESEARCH AND TECHNOLOGY 223 (6): 829-835 (2006) Cassano A, Conidi C, Timpone R, et al.: A membrane-based process for the clarification and the concentration of the cactus pear juice, JOURNAL OF FOOD ENGINEERING 80 (3): 914-921 (2007 ) Hongvaleerat, C., Cablar, LMC., Dornier, M., et al.: Concentration of pineapple juice by osmotic evaporation, J Food Engin, 88 (4) 548-552 (2008) 34.Csányi, E., K. Bélafi-Bakó, N. Nemestóthy, L. Gubicza: Study on ethanol fermentation integrated with simultaneous solvent extraction and enzymatic reaction, Acta Alimentaria 33 (2004) 63-70 (IF=0,299; -) 35.Bélafi-Bakó, K. Nemestóthy, N., Gubicza, L.: Comparative study on application of membrane techniques in bioconversion of fumaric acid to L-malic acid, Desalination 162 (2004) 301-306 (IF=1,057; 11 hiv.) 15

Roksa I, Vrsalovic-Presecki A, et al.: Biotransformation of fumaric acid to L-malic acid by the whole cells of bakers yeast, Enzyme Reaction Engineering, Zagreb, 2005, Book of Abstracts E. Korngold, N. Belayev, L. Aronov and Y. Oren: Conversion of dipotassium malate to malic acid by electromembrane processes Desalination 195 (2006) 153-159 Fidaleo, M., Moresi, M.: Electrodialysis Applications in The Food Industry, Advances in Food and Nutrition Research 51, pp. 265-360, 2006 Vrsalovic-Presecki, A., Zelic, B.,, Vasic-Racki, D.: Comparison of the L-malic acid production by isolated fumarase and fumarase in permeabilized baker s yeast cells, Enzyme and Microbial Technology 41, 605-612, 2007 Huang, C., Xu, T., Zhang, Y., Xue, Y., Chen, G.: Application of electrodialysis to the production of organic acids: State-of-the-art and recent developments, Journal of Membrane Science 288 (1-2), pp. 1-12, 2007 Preseki, AV., Zeh, B., Vasic-Rakic, D.: Comparison of the L-malic acid production by isolated fumarase and fumarase in permeabilized baker's yeast cells, Enzyme Microb Tech, 41 (5) 605-612 (2007) Antonelli, ML., Spadaro, C., Tomelli, RF.: A microcalorimetric sensor for food and cosmetic analyses: L-Malic acid determination, Talanta, 74 (5) 1450-1454 (2008) Antonelli, ML., Tornelli, RF.: Calorimetric analysis of three hydroxy acids as markers for quality and safety in food, Journal of Thermal Analysis and Calorimetry, 91 (1) 113-117 (2008) Illanes, A.: Enzyme Biocatalysis, Springer Sci +Business Media B.V., Heidelberg (2008) Concentration and purification of malate ion from a beverage industry waste water using electrodialysis with homopolar membranes, Author(s): Lameloise ML, Matinier H, Fargues C Source: JOURNAL OF MEMBRANE SCIENCE Volume: 343 Issue: 1-2 Pages: 73-81 Published: NOV 1 2009 Utilization of electrodialysis for galacturonic acid recovery Author(s): E. Molnar, M. Eszterle, K. Kiss, et al. Source: DESALINATION Volume: 241 Issue: 1-3 Pages: 81-85 Published: MAY 31 2009 36.Koszorz, Z., Nemestóthy, N., Ziobrowsky, Z., Bélafi-Bakó, K., Krupiczka, R.: Influence of pervaporation process parameters on enzymatic catalyst deactivation, Desalination 162 (2004) 307-313 (IF=1,057; 3 hiv. ) Won, K, Hong, JK, Kim, KJ, Moon, SJ: Lipase catalysed enantioselective esterification of racemic ibuprofen coupled with pervaporation, Proc. Biochem. 41(2) 264-269 (2006) Sanz MT, Gmehling J.: Esterification of acetic acid with isopropanol coupled with pervaporation. Part II. Study of a pervaporation reactor, CHEMICAL ENGINEERING JOURNAL 123 (1-2): 9-14 (2006) Mitkowski, PT., Jonsson, G., Gani, R.: Computer aided design and analysis of hybrid processes, Inzynier Chem Procesowa, 28 (3) 769-781 (2007) 37.Horváth, R., Orosz, T., Bálint, B., Wessling, M., Bélafi-Bakó, K.: Application of gas separation to recover biohydrogen produced by Thiocapsa roseopersicina, Desalination 163 (2004) 261-265 (IF=1,057; 2 hiv.) Gassanova LG, Netrusov AI, Teplyakov VV, et al.: Fuel gases from organic wastes using membrane bioreactors, DESALINATION 198 (1-3): 56-66 (2006) Bedoya, A., Castrillon, JC., Ramirez, JE., et al.: Biological production of hydrogen: a literature survey, DYNA-Colombia, 75 (154) 137-157 (2008) 16

38.Dörmı, N., Bélafi-Bakó, K., Bartha, L., Ehrenstein, U., Gubicza, L.: Manufacture of an environmental-safe biolubricant from fusel oil by enzymatic esterification in solvent-free system, Biochem. Eng. J. 21 (2004) 229-234 (IF=1,617; 10 hiv.) Won, K, Hong, JK, Kim, KJ, Moon, SJ: Lipase catalysed enantioselective esterification of racemic ibuprofen coupled with pervaporation, Proc. Biochem. 41(2) 264-269 (2006) Lathi PS, Mattiasson B.: Green approach for the preparation of biodegradable lubricant base stock from epoxidized vegetable oil, APPLIED CATALYSIS B- ENVIRONMENTAL 69 (3-4): 207-212 J(2007) Nik, W.B.W., Giap, S.G.E., Senin, H.B., Bulat, K.H.K.: Effect of shear rate and temperature on rheological properties of vegetable based oil, AIP Conference Proceedings 909, pp. 253-260, 2007 de la Iglesia, O., Mallada, R., Menéndez, M., Coronas, J.: Continuous zeolite membrane reactor for esterification of ethanol and acetic acid, Chemical Engineering Journal 131 (1-3), pp. 35-39, 2007 Guvenc, A., Aydogan, O., Kapucu, N., Mehmetogu, U.: Production of isoamyl acetate from fusel oil [Fuzel yagǐndan iżoami l asetat u retiṁi ], J Fac Eng Arch Gazi U, 22 (4) 801-808 (2007) Woodcock, LL., Wiles, C., Greenway, GM., et al.: Enzymatic synthesis of a series of alkyl esters using novozyme 435 in a packed-bed, miniaturized, continuous flow reactor. Biocat Biotrans, 26 (6) 501-507 (2008) He, LP., Sun, J., Xu, Y., et al.: A novel method to resolve (R,S)-3-n-butylphthalide catalyzed by Novozyme 435 in microaqueous medium. Proc Biochem, 43 (11) 1215-1219 (2008) ENZYMATIC SYNTHESIS ISOAMYL BUTYRATE EMPLOYING COMMERCIAL MICROBIAL LIPASES., Author(s): Aragao VC, Anschau A, Porciuncula BDA, et al. Source: QUIMICA NOVA Volume: 32 Issue: 9 Pages: 2268-2272 Published: 2009 Synthesis of an Amine-Oleate Derivative Using an Ionic Liquid Catalyst, Author(s): Biswas A, Sharma BK, Doll KM, et al. Source: JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY Volume: 57 Issue: 18 Pages: 8136-8141 Published: SEP 23 2009 Synthesis of Isoamyl Acetate of Isoamyl Alcohol Obtained from Fusel Oil using Immobilized Candida Antarctica Lipase, Author(s): Bi F, Iqbal S, Ali A, et al., Source: JOURNAL OF THE CHEMICAL SOCIETY OF PAKISTAN Volume: 31 Issue: 3 Pages: 485-491 Published: JUN 2009 In situ Product Recovery Integrated with Biotransformations, Author(s): Bechtold M, Panke S, Source: CHIMIA Volume: 63 Issue: 6 Pages: 345-348 Published: 2009 39.Ulbert, O., Fráter, T., Bélafi-Bakó, K., Gubicza, L.: Enhanced enantioselectivity of Candida rugosa lipase in ionic liquids as compared to organic solvents, J. Mol. Cat. B. Enzymatic 31 (2004) 39-45 (IF=1,547; 32 hiv.) Krieger N, Bhatnagar T, Baratti JC, et al.: FOOD TECHNOLOGY AND BIOTECHNOLOGY 42 (4): 279-286 (2004) Mori M, Garcia RG, Belleville MP, et al.: A new way to conduct enzymatic synthesis in an active membrane using ionic liquids as catalyst support, CATALYSIS TODAY 104 (2-4): 313-317 2005 De Diego T, Lozano P, Gmouh S, et al.: Understanding structure - Stability relationships of Candida antartica lipase B in ionic liquids, BIOMACROMOLECULES 6 (3): 1457-1464 2005 17

Guo HM, Cun LF, Gong LZ, et al: CHEMICAL COMMUNICATIONS (11): 1450-1452 (2005) Kamal A, Chouhan G, Chemoenzymatic synthesis of calcilytic agent NPS-2143 employing a lipase-mediated resolution protocol, TETRAHEDRON-ASYMMETRY 16 (16): 2784-2789 (2005) Yu XW, Li YQ: APPLIED BIOCHEMISTRY AND BIOTECHNOLOGY 126 (3): 177-187 (2005) Lee SM, Chang WJ, Choi AR, et al: KOREAN JOURNAL OF CHEMICAL ENGINEERING 22 (5): 687-690 (2005) Zhao H: JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC 37 (1-6): 16-25 (2005) Zheng LY, Zhang SQ, Yu XQ, et al. JOURNAL OF MOLECULAR CATALYSIS B- ENZYMATIC 38 (1): 17-23 (2006) De Maria PD, Sanchez-Montero JM, Sinisterra JV, et al.: BIOTECHNOLOGY ADVANCES 24 (2): 178-194 (2006) Tsukada Y, Iwamoto K, Furutani H, et al.: TETRAHEDRON LETTERS 47 (11): 1801-1804 (2006) Moon YH, Lee SM, Ha SH, et al.: Enzyme-catalyzed reactions in ionic liquids, KOREAN JOURNAL OF CHEMICAL ENGINEERING 23 (2): 247-263 (2006) Illanes A, Wilson L, Caballero E, et al.: Crosslinked penicillin acylase aggregates for synthesis of beta-lactam antibiotics in organic medium, APPLIED BIOCHEMISTRY AND BIOTECHNOLOGY 133 (3): 189-202 (2006) Xia YM, Wu HP, Zhang Y, et al.,synthesis and application of ionic liquids in enzymatic catalysis, PROGRESS IN CHEMISTRY 18 (12): 1660-1667 (2006) Itoh T, Matsushita Y, Abe Y, et al. : Increased enantioselectivity and remarkable acceleration of lipase-catalyzed transesterification by using an imidazolium PEG-alkyl sulfate ionic liquid, CHEMISTRY-A EUROPEAN JOURNAL 12 (36): 9228-9237 (2006) Paljevac, M., Sǎbeder, S., Acebes Sampedro, M., Habulin, M., Knez, Z.: Enzymatic synthesis of citronellol laurate in organic solvents and in ionic liquids, CHISA 2006-17th International Congress of Chemical and Process Engineering, 2006 Domínguez De María, P., Sánchez-Montero, J.M., Sinisterra, J.V., Alcántara, A.R.: Understanding Candida rugosa lipases: An overview, Biotechnology Advances 24 (2), pp. 180-196, 2006 De Maria, PD., Sanchez-Montero, JM., Sinisterra, JV., et al.: Understanding Candida rugosa lipases: An overview, Biotech Advance, 24 (2) 178-194 (2006) Habulin, M., Sǎbeder, S., Paljevac, M., Primozǐc, M., Knez, Z.: Lipase-catalyzed esterification of citronellol with lauric acid in supercritical carbon dioxide/co-solvent media, Journal of Supercritical Fluids 43 (2), pp. 199-203, 2007 Harjani, J.R., Naik, P.U., Nara, S.J., Salunkhe, M.M.: Enzyme mediated reactions in ionic liquids, Current Organic Synthesis 4 (4), pp. 354-369, 2007 Cantone, S., Hanefeld, U., Basso, A.: Biocatalysis in non-conventional media - Ionic liquids, supercritical fluids and the gas phas, Green Chemistry 9 (9), pp. 954-971, 2007 Sanfilippo, C., Nicolosi, G.: Enantiomeric resolution by lipase-catalysed esterification of a trans-5,6-dihydro-1,10-phenanthroline possessing helical and central chirality, Tetrahedron Asymmetry 18 (15), pp. 1828-1832, 2007 van Rantwijk, F., Sheldon, R.A.: Biocatalysis in ionic liquids, Chemical Reviews 107 (6), pp. 2757-2785, 2007 Reddy, K.R., Chakrapani, L., Ramani, T., Rajasekhar, C.V.: L-proline-catalyzed asymmetric direct aldol reaction of heteroaromatic aldehydes and acetone: 18

Improvement of catalytic efficiency in ionic liquid bmim [BF4], Synthetic Communications 37 (24), pp. 4301-4307, 2007 Durand J, Teuma E, Goez M: Ionic liquids as a medium for enantioselective catalysis, COMPTES RENDUS CHIMIE 10 (3): 152-177 2007 Carrea, G., Riva, S.: Organic Synthesis with Enzymes in Non-Aqueous Media, Wiley- VCH Verlag BmbH and Co. KGaA, Weinheim (2008) Wasserscheid, P., Welton, T.: Ionic liquids in Synthesis, Wiley-VCH Verlag BmbH and Co. KGaA, Weinheim (2008), 2 nd edition Lee, SH., Koo, YM., Ha, SH.: Influence of ionic liquids under controlled water activity and low halide content on lipase activity. Korean J Chem Eng, 25 (6) 1456-1462 (2008) Tonova, K., Lazarova, Z.: Reversed micelle solvents as tools of enzyme purification and enzyme-catalyzed conversion. Biotechnol Adv, 26 (6) 516-532 (2008) Shi, YG., Fang, Y., Ren, YP., et al.: Effect of ionic liquid [BMIM][PF6] on asymmetric reduction of ethyl 2-oxo-4-phenylbutyrate by Saccharomyces cerevisiae. J Ind Microbiol Biotechnol, 35 (11) 1419-1424 (2008) Micaelo, NM., Soares, CM.: Protein structure and dynamics in ionic liquids. Insights from molecular dynamics simulation studies, J Phys Chem B, 112 (9) 2566-2572 (2008) Lipase-catalyzed glycerolysis in ionic liquids directed towards diglyceride synthesis Author(s): Kahveci D, Guo Z, Ozcelik B, et al., Source: PROCESS BIOCHEMISTRY Volume: 44 Issue: 12 Pages: 1358-1365 Published: DEC 2009 Efficient enzymatic preparation of hydroxycinnamates in ionic liquids enhances their antioxidant effect on lipoproteins oxidative modification Author(s): Katsoura MH, Polydera AC, Tsironis LD, et al., Source: NEW BIOTECHNOLOGY Volume: 26 Issue: 1-2 Special Issue: Sp. Iss. SI Pages: 83-91 Published: OCT 1 2009 Enzyme-catalyzed Acylation of (R,S)-1-phenylethanol in 1-butyl-3- methylimidazolium Based Ionic Liquids, Author(s): Paljevac M, Knez Z, Habulin M, Source: ACTA CHIMICA SLOVENICA Volume: 56 Issue: 2 Pages: 399-409 Published: 2009 Biocatalytic reactions in hydrophobic ionic liquids, Author(s): Sureshkumar M, Lee CK, Source: JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC Volume: 60 Issue: 1-2 Pages: 1-12 Published: SEP 2009 Effect of ionic liquid properties on lipase stabilization under microwave irradiation, Author(s): Zhao H, Baker GA, Song ZY, et al., Source: JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC Volume: 57 Issue: 1-4 Pages: 149-157 Published: MAY 2009 40.Fráter, T., Nemestóthy, N., Gubicza, L., Bélafi-Bakó, K.: Enhancement of operation and storage stability of glucoamylase from Aspergillus awamori by a protease inhibitor preparation, Biocat. Biotrans. 23 (2005) 281-284 (IF=1,516; -) (2 hiv.) Wang, R., Godoy, L.C., Shaarani, S.M., Melikoglu, M., Koutinas, A., Webb, C.: Improving wheat flour hydrolysis by an enzyme mixture from solid state fungal fermentation, Enzyme Microb. Technol. 44 (2009) 223-228 Study on the influence of the so-called filtration enzyme action on the membrane filtration process of wheat starch hydrolysates, Author(s): Slominska L, Niedbach J Source: DESALINATION Volume: 241 Issue: 1-3 Pages: 296-301 Published: MAY 31 2009 41.Búcsú, D., Bélafi-Bakó, K., Pientka, Z.: Two-stage membrane separation process for biohydrogen recovery, Env. Prot. Eng. 31 (2005) 33-37 19

42.Ulbert, O., Bélafi-Bakó, K., Tonova, K., Gubicza, L.: Thermal stability enhancements of Candida rugosa lipase using ionic liquids, Biocat. Biotrans. 23 (2005) 177-183 (IF=1,516; 15 hiv.) Contesini FJ, Carvalho PD.: Esterification of (RS)-ibuprofen by native and commercial lipases in a two-phase system containing ionic liquids, TETRAHEDRON- ASYMMETRY 17 (14): 2069-2073 (2006) Dang DT, Ha SH, Lee SM, et al.: Enhanced activity and stability of ionic liquidpretreated lipase, JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC 45 (3-4): 118-121 (2007) Chen ZG, Zong MH, Gu ZX: Enzymatic synthesis of sugar esters in ionic liquids, CHINESE JOURNAL OF ORGANIC CHEMISTRY 27 (11): 1448-1452, 2007 van Rantwijk F, Sheldon RA: Biocatalysis in ionic liquids, CHEMICAL REVIEWS 107 (6): 2757-2785, 2007 Oh JM, Lee DH, Song YS, et al. : Stability of immobilized lipase on poly(vinyl alcohol) microspheres, JOURNAL OF INDUSTRIAL AND ENGINEERING CHEMISTRY 13 (3): 429-433, 2007 Illanes, A.: Enzyme Biocatalysis, Springer Sci +Business Media B.V., Heidelberg (2008) Carrea, G., Riva, S.: Organic Synthesis with Enzymes in Non-Aqueous Media, Wiley- VCH Verlag BmbH and Co. KGaA, Weinheim (2008) Ha, SH., Lee, SH., Dang, DT., et al.: Enhanced stability of Candida antarctica lipase B in ionic liquids, Korean J Chem Eng, 25 (2) 291-294 (2008) Micaelo, NM., Soares, CM.: Protein structure and dynamics in ionic liquids. Insights from molecular dynamics simulation studies, J Phys Chem B, 112 (9) 2566-2572 (2008) Lee, SH., Koo, YM., Ha, SH.: Influence of ionic liquids under controlled water activity and low halide content on lipase activity. Korean J Chem Eng, 25 (6) 1456-1462 (2008) Tonova, K., Lazarova, Z.: Reversed micelle solvents as tools of enzyme purification and enzyme-catalyzed conversion. Biotechnol Adv, 26 (6) 516-532 (2008) de Maria, PD.: "Nonsolvent" applications of ionic liquids in biotransformations and organocatalysis. Ang Chem-Int Ed, 47 (37) 6960-6968 (2008) Effects of Ionic Liquids on Enzymatic Catalysis of the Glucose Oxidase toward the Oxidation of Glucose Author(s): Wu XM, Zhao B, Wu P, et al., Source: JOURNAL OF PHYSICAL CHEMISTRY B Volume: 113 Issue: 40 Pages: 13365-13373 Published: 2009 Evaluation of Anion Influence on the Formation and Extraction Capacity of Ionic- Liquid-Based Aqueous Biphasic Systems, Author(s): Ventura SPM, Neves CMSS, Freire MG, et al. Source: JOURNAL OF PHYSICAL CHEMISTRY B Volume: 113 Issue: 27 Pages: 9304-9310 Published: 2009 Lipases in water-in-ionic liquid microemulsions: Structural and activity studies, Author(s): Pavlidis IV, Gournis D, Papadopoulos GK, et al. Source: JOURNAL OF MOLECULAR CATALYSIS B-ENZYMATIC Volume: 60 Issue: 1-2 Pages: 50-56 Published: SEP 2009 43.Koroknai, B., Kiss, K., Gubicza, L., Bélafi-Bakó, K.: Coupled operation of membrane distillation and osmotic evaporation in fruit juice concentration, Desalination 200 (2006) 526-527 (IF=0,917; 1 hiv.) N. Pap, Sz. Kertész, E. Pongrácz, L. Myllykoski, R.L. Keiski, Gy. Vatai, Zs. László, S. Beszédes, C. Hodúr: Concentration of blackcurrant juice by reverse osmosis, Desalination 241 (2009) 20