CO2 reductionsolar energybiomassThe new visible-light operated CO2-glucose biofuel cell consisting of chlorin-e6 immobilized on TiO2 thin layer film onto optical transparent conductive glass electrode (OTE) as an anode, formate dehydrogenase (FDH) and viologen with long alkyl chain co-immobilized OTE...
Reducing CO2 to HCO2– at Mild Potentials: Lessons from Formate Dehydrogenase Jenny Y. YangTyler KerrXinran S. WangJeffrey M. Barlow Journal of the American Chemical Society Nov 2020 The catalytic reduction of CO2 to HCO2- requires a formal transfer of a hydride (two electrons, one proton)....
dehydrogenaseis able to catalyze the reverse reaction, the reduction of CO2to formate, and we reiterate that it seems likely that most if not all of them will eventually be demonstrated to do so. View chapterExplore book Applications of Biocatalysis for Pharmaceuticals and Chemicals...
Campylobacter needs selenium to make the formate dehydrogenase enzyme required for respiration, but it is not known how selenium is acquired or metabolized by Campylobacter or many other bacteria. Better control Campylobacter by knowing how it utilizes selenium for respiration The electrochemical formate ...
Tungsten-containing formate dehydrogenase Formate oxidation CO2 reduction Reversible bioelectrocatalysis Bioelectrocatalytic potentiometry 1. Introduction In recent years, the technology of capturing and storing renewable energy has been extensively discussed and investigated. The reduction of carbon dioxide to ...
Growth on methanol and CO2 was achieved by further expression of a methanol dehydrogenase. Establishing synthetic formatotrophy and methylotrophy, as demonstrated here, paves the way for sustainable bioproduction rooted in CO2 and renewable energy. This is a preview of subscription content, access ...
The improvement of formic acid production from CO2 with visible-light energy and formate dehydrogenase by the function of the viologen derivative with ... TAY Ikeyama - 《Journal of Photochemistry & Photobiology A Chemistry》 被引量: 0发表: 2018年 The improvement of formic acid production from ...
Hydrogen produced during water-rock serpentinization reactions can drive the synthesis of organic compounds both biotically and abiotically. We investigated abiotic carbon production and microbial metabolic pathways at the high energy but low diversity s
Utilizing a bismuth electrocatalyst, we achieved stable CO2 reduction to formate with approximately 90 % Faraday efficiency at a current density of 150 mA cm2. The generated formate acts as a mediator to regenerate NADH, which is then coupled with immobilized redox enzymes—alcohol ...
as shown for several FDHs and formyl-methanofuran dehydrogenases1,2,3,4,5,6,7,8. This family of enzymes has also been termed CO2reductases9. Enzymatic reduction of carbon dioxide to formate would allow for storage of hydrogen as a fuel for industrial applications2,9,10as well as carbon ...