Biological and fermentative production of hydrogen
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Elsevier
Reference164 articles.
1. High yield single stage conversion of glucose to hydrogen by photofermentation with continuous cultures of Rhodobacter capsulatus JP91;Abo-Hashesh;Bioresource Technology,2013
2. Photobiological hydrogen production: photochemical efficiency and bioreactor design;Akkerman;International Journal of Hydrogen Energy,2002
3. Hydrogen production by photosynthetic bacteria Rhodobacter capsulatus Hup- strain on acetate in continuous panel photobioreactors;Androga;18th World Hydrogen Energy Conference 2010 - WHEC 2010: Parallel Sessions Book 2: Hydrogen Production Technologies - Part 1. D. Stolten and T. Grube,2010
4. Production of bioenergy and biochemicals from industrial and agricultural wastewater;Angenent;Trends in Biotechnology,2004
5. Production of H2 by sulphur-deprived cells of the unicellular cyanobacteria Gloeocapsa alpicola and Synechocystis sp. PCC 6803 during dark incubation with methane or at various extracellular pH;Antal;Journal of Applied Microbiology,2005
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