Kelemen Imola (szerk.): A Csíki Székely Múzeum Évkönyve 6. (Csíkszereda, 2010)
Természettudományok - Molnos Éva–Ábrahám Beáta–Mészáros Sándor–Muntean Ovidiu–Lányi Szabolcs: Hidrogén – a jövő energiája
MOLNOS ÉVA ET AL. BENEMANN 1996 CHEN ET AL 2009 DAS ET AL. 2008 DAVILA-VAZQUEZ ET Al. 2008 DAVILA-VAZQUEZ ET AL. 2009 HALLENBECK 2009 KALIA, PUROHIT 2008 KOVÁCS ET AL. 2002 KERÉNYI 1995 KRAEMER, BAGLEY 2007 MATHEWS, WANG 2009 SASIKALA ET AL. 1993 TSYGANKOV 2007 VIGNAIS, COLBEAU 2004 Irodalom Benemann, John, Hydrogen biotechnology: progress and prospects, IN Nature Biotechnology, 14/9,1101-1103. Chen, Chun-Yen; Saratale, Ganesh D.; Lee, Chi-Mei; Chen, Pei-Chung; Chang, Jo-Shu, Phototrophic hydrogen production in photobioreactors coupled with solar-energy- excited optical fibers, IN InternationalJournal of Hydrogen Energy, 33,6886-6895. Das, Debabrata; Khanna, Namita; Vezirodlu, T. Nejat, Recent developments in biological hydrogen production processes, IN Chemical Industry & Chemical Engineering Quarterly, 14/2, 57-67. Davila-Vazquez, Gustavo; Arriaga, Sonia; Alatriste-Mondragón, Felipe; León- Rodriguez, Antonio de; Rosales-Colunga, Luis Manuel; Razo-Flores, Elias, Fermentative biohydrogen production: trends and perspectives, IN Reviews in Environmental Science and Biotechnology, 7, 27-45. Davila-Vazquez, Gustavo; Cota-Navarro, Ciria Berenice; Rosales-Colunga, Luis Manuel; de León-Rodrígez, Antonio; Razo-Flores, Elias, Continuous biohydrogen production using cheese whey: Improving the hydrogen production rate, IN InternationalJournal of Hydrogen Energy, 34, 4296-4304. Hallenbeck, Patrick C, Fermentative hydrogen production: Principles, progress, and prognosis, IN International Journal of Hydrogen Energy, 34,7379-7389. Kalia, Vipin Chandra; Purohit, Hermant J., Microbial diversity and genomics in aid of bioenergy<, IN Journal of Industrial Microbiology and Biotechnology, 35, 403-419. Kovács Kornél L.; Fodor Barna; Kovács T. Ákos; Csanádi Gyula; Maróti Gergely.; Balogh Judit; Solmaz Arvani; Rákhely Gábor, Hydrogenases, accessory genes atid the regulation of [NiFe] hydrogenase biosynthesis in Thiocapsa roseopersicina, IN International Journal of Hydrogen Energy, 27,1463-1469. Kerényi Attila, Általános környezetvédelem: globális gondok, lehetséges megoldások, Mozaik Kiadó, Szeged. Kraemer, Jeremy T.; Bagley, David M., Improving the yield from fermentative hydrogen production, IN Biotechnology Letters, 29, 685-695. Mathews, Juanita; Wang, Guangyi, Metabolic pathway engineering for enhanced biohydrogen production, IN International Journal of Hydrogen Energy, 34, 7404- 7416. Sasikala, K; Ramana, Ch. V.; Raghuveer Rao, P.; Kovács Kornél L., Anoxygenic phototrophic bacteria: physiology and advances in hydrogen production technology, IN Advances in Applied Microbiology, 38, 211-295. Tsygankov, Anatoly A., Biological Generation of Hydrogen, IN Russian Journal of General Chemistry, 77/4, 685-693Vignais, Paulette M.; Colbeau, A., Molecular Biology of Microbial Hydrogenases, IN Current Issues in Molecular Biology, 6,159-188. Molnos Éva Sapientia EMTE, Csíkszereda, Románia Bukaresti Műszaki Egyetem, Bukarest, Románia E-mail: haraieva@sapientia.siculorum.ro Muntean Ovidiu Bukaresti Műszaki Egyetem Bukarest, Románia E-mail: o_muntean@chim.upb.ro Ábrahám Beáta, Mészáros Sándor, Lányi Szabolcs Sapientia EMTE Csíkszereda, Románia E-mail: albertbeata@sapientia.siculorum.ro, meszarossandor@sapientia.siculorum.ro, lanyiszabolcs@sapientia.siculorum.ro 514
