Microbial electrosynthesis (MES) is a promising technology that mainly utilizes microbial cells to convert CO2 into value-added chemicals using electrons provided by the cathode. However, the low electron transfer rate is a solid bottleneck hindering the further application of MES. Thus, as an ...
In marine ecosystems, however, the capture and utilization of CO2face a severe challenge: despite the large surface ocean-atmosphere CO2flux, CO2in the ocean depths is too low to be efficiently utilized. To adapt to this, marine phytoplankton evolves CCMs (Fig.2a). CCMs comprise a group of ...
(139e) Integrated Electro-Microbial Conversion of CO2 to Higher Alcohols Integrated electromicrobial conversion of C O2 to higher alcohols. Sci‑ ence. 2012;335:1596.Han L, Opgenorth PH, Wernick DG, Rogers S, Wu TY, Higashide W, Malati P, Huo YX, Cho KM, Liao JC. Integrated electr...
Towards the electrochemical conversion of carbon dioxide into methanol. have been proposed to date in order to mitigate the concentration of CO2 in the atmosphere, such as the separation, storage, and utilization of this ... Albo,J.,Alvarez-Guerra,... - 《Green Chemistry》 被引量: 34发表:...
design of microbial catalysts for two-stage bioprocesses for metabolite production, including synthetic biology tools to arrest cell growth using external or internal cues, and metabolic engineering tools to minimize interference from the native metabolic network and enhance substrate uptake and conversion....
Utilization of CO2for 1,4-BDO production. GAP: glyceraldehyde-3-phosphate; F6P: fructose-6-phosphate; DHAP: dihydroxyacetone phosphate. Full size image Microorganism: wide and engineered strains 1,3-PDO A number of microorganism species are able to accumulate short chain diols. 1,3-PDO can ...
Fabrication of biomass-based functional carbon materials for energy conversion and storage 2023 Elsevier B.V.With the increasing attention to energy and environmental issues, the high-efficiency utilization of biomass becomes an exciting new fiel... X Yang,H He,T Lv,... - 《Materials Science &...
Ehhalt, D. H., 1976, The atmospheric cycle of methane, in:Microbial Production and Utilization of Gases(H. G. Schlegel, G. Gottschalk, and N. Pfennig, eds.), pp. 13–22, E. Goltze KG, Göttingen. Google Scholar Ellefsen, O., and Tonnesen, B. A., 1971, Polymerie forms, in:...
Swiss Federal Institute of Technology (ETHZ), Zürich, Switzerland Much research has been invested into engineering microorganisms to perform desired biotransfor- mations; nonetheless, these efforts frequently fall short of expected results due to the unforeseen effects of biofeedback regulation and functi...
In this Review, we discuss how microorganisms can be explored for the production of next-generation biofuels, based on the ability of bacteria and fungi to use lignocellulose; through direct CO2 conversion by microalgae; using lithoautotrophs driven by solar electricity; or through the capacity of...