Journal ArticleDOI
One-carbon substrate-based biohydrogen production: Microbes, mechanism, and productivity
Simon K.-M. R. Rittmann,Hyun Sook Lee,Jae Kyu Lim,Tae Wan Kim,Jung-Hyun Lee,Sung Gyun Kang,Sung Gyun Kang +6 more
TLDR
Recent advances in the isolation of novel phylogenetic groups utilizing formate or CO, the remarkable genetic engineering that enhances H2 productivity, and the practical implementation of H2 production from C1 substrates are focused on.About:
This article is published in Biotechnology Advances.The article was published on 2015-01-01. It has received 63 citations till now. The article focuses on the topics: Biohydrogen & Formate.read more
Citations
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Reactor systems for syngas fermentation processes: A review
TL;DR: In this paper, the authors present a review of various techniques applied in syngas fermentation, focusing on the different bioreactor configurations operated in continuous mode for the production of liquid and gas biofuels.
Journal ArticleDOI
New Horizons in Acetogenic Conversion of One-Carbon Substrates and Biological Hydrogen Storage
TL;DR: In this article, a reductive pathway for reducing CO2 to formate with H2 as reductant that is superior over any chemical catalyst for CO2-based hydrogen storage is presented.
Journal ArticleDOI
Syngas biomethanation: state-of-the-art review and perspectives
TL;DR: The most relevant aspects determining the performance of syngas biomethanation processes are extensively discussed here, including microbial diversity and metabolic interactions in mixed microbial consortia, the influence of operating parameters and bioreactor designs, and the potential of modelling as a tool for the design and control of this bioprocess.
Journal ArticleDOI
Biotechnology of extremely thermophilic archaea
Christopher T. Straub,James A. Counts,Diep M.N. Nguyen,Chang-Hao Wu,Benjamin M. Zeldes,James R. Crosby,Jonathan M. Conway,Jonathan K. Otten,Gina L. Lipscomb,Gerrit J. Schut,Michael W. W. Adams,Robert M. Kelly +11 more
TL;DR: There are barriers and challenges to these organisms reaching their full potential as industrial microorganisms but, if these can be overcome, a new dimension for biotechnology will be forthcoming that strategically exploits biology at high temperatures.
Journal ArticleDOI
Recent insights into consolidated bioprocessing for lignocellulosic biohydrogen production
TL;DR: This review provides comprehensive information on dark fermentation for hydrogen production using lignocellulosic biomass as a potential feedstock with a CBP approach and potential bottlenecks in the above mentioned processes.
References
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Journal ArticleDOI
Hydrogen-storage materials for mobile applications
TL;DR: Recent developments in the search for innovative materials with high hydrogen-storage capacity are presented.
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Materials for fuel-cell technologies
TL;DR: Recent progress in the search and development of innovative alternative materials in the development of fuel-cell stack is summarized.
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Energy conservation in chemotrophic anaerobic bacteria.
TL;DR: This article corrects the article on p. 100 in vol.
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Genome sequence of the dissimilatory metal ion-reducing bacterium Shewanella oneidensis.
John F. Heidelberg,Ian T. Paulsen,Karen E. Nelson,Eric Gaidos,Eric Gaidos,William C. Nelson,Timothy D. Read,Jonathan A. Eisen,Rekha Seshadri,Naomi L. Ward,Barbara A. Methé,Rebecca A. Clayton,Terry E. Meyer,A. I. Tsapin,James Scott,Maureen J. Beanan,Lauren M. Brinkac,Sean C. Daugherty,Robert T. DeBoy,Robert J. Dodson,A. Scott Durkin,Daniel H. Haft,James F. Kolonay,Ramana Madupu,Jeremy Peterson,Lowell Umayam,Owen White,Alex M. Wolf,Jessica Vamathevan,Janice Weidman,Marjorie Impraim,K. Lee,Kristy Berry,Chris Lee,Jacob L. Mueller,Hoda Khouri,John Gill,T. Utterback,Lisa McDonald,Tamara Feldblyum,Hamilton O. Smith,J. Craig Venter,Kenneth H. Nealson,Kenneth H. Nealson,Claire M. Fraser +44 more
TL;DR: This genome sequence represents a critical step in the elucidation of the pathways for reduction (and bioremediation) of pollutants such as uranium (U) and chromium (Cr), and offers a starting point for defining this organism's complex electron transport systems and metal ion–reducing capabilities.
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The structure and mechanism of iron-hydrogenases
TL;DR: Mechanisms of H2 activation and electron transfer are proposed to explain the effects of CO binding and the ability of one of the hydrogenases to preferentially catalyze H2 oxidation and H2 production.