Efficient, Highly Productive Hydrogen Production from Glucose

HOME

RESEARCH

Research Areas & Activities Solar Energy Biomass Energy Sythesis of Biofuels on Bioelectrodes Capturing Electrical Current via Microbes to Produce Methane Efficient, Highly Productive Hydrogen Production from Glucose Novel Mutants Optimized for Lignin, Growth and Biofuel Production via Re-Mutagenesis The Climate-Protective Domain Efficient Biomass Conversion: Delineating the Best Lignin Monomer-Substitutes Assembly of a Lignin Modification Toolbox Towards New Degradable Lignin Types Microbial Synthesis of Biodiesel Directed Evolution of Novel Yeast Species Genetic Engineering of Cellulose Accumulation Hydrogen Advanced Combustion CO₂ Capture CO₂ Storage Advanced Materials & Catalysts Advanced Coal Advanced Transportation Advanced Electric Grid Grid Storage Other Renewables Integrated Assessment Advanced Nuclear Energy Geoengineering Exploratory Efforts All Activities Analysis Activities Technical Reports

Research

Biomass Energy

Efficient, Highly Productive Hydrogen Production from Glucose

Start Date: September 2011

Investigators

James Swartz, Department of Chemical Engineering and Department of Bioengineering, Stanford University

Publications

Smith, P. R., A. S. Bingham, and J. R. Swartz. "Generation of hydrogen from NADPH using an [FeFe] hydrogenase." International Journal of Hydrogen Energy 37, no. 3 (2012): 2977-2983.

Updated January 2013

RESEARCH | EVENTS | NEWS | TECHNICAL LIBRARY | ABOUT | TERMS OF USE | SITE MAP | HOME

© Copyright 2011-2013 Stanford University: Global Climate and Energy Project (GCEP)

Restricted Use of Materials from GCEP Site: User may download materials from GCEP site only for User's own personal, non-commercial use. User may not otherwise copy, reproduce, retransmit, distribute, publish, commercially exploit or otherwise transfer any material without obtaining prior GCEP or author approval.