FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2560748355> ?p ?o ?g. }

• W2560748355 endingPage "967" @default.
• W2560748355 startingPage "958" @default.
• W2560748355 abstract "The fluctuation and decentralization of renewable energy have triggered the search for respective energy storage and utilization. At the same time, a sustainable bioeconomy calls for the exploitation of CO2 as feedstock. Secondary microbial electrochemical technologies (METs) allow both challenges to be tackled because the electrochemical reduction of CO2 can be coupled with microbial synthesis. Because this combination creates special challenges, the electrochemical reduction of CO2 was investigated under conditions allowing microbial conversions, that is, for their future use in secondary METs. A reproducible electrodeposition procedure of In on a graphite backbone allowed a systematic study of formate production from CO2 with a high number of replicates. Coulomb efficiencies and formate production rates of up to 64.6±6.8 % and 0.013±0.002 mmolformate h−1 cm−2, respectively, were achieved. Electrode redeposition, reusability, and long-term performance were investigated. Furthermore, the effect of components used in microbial media, that is, yeast extract, trace elements, and phosphate salts, on the electrode performance was addressed. The results demonstrate that the integration of electrochemical reduction of CO2 in secondary METs can become technologically relevant." @default.
• W2560748355 created "2016-12-16" @default.
• W2560748355 creator A5040347964 @default.
• W2560748355 creator A5040832038 @default.
• W2560748355 creator A5042351420 @default.
• W2560748355 creator A5048409863 @default.
• W2560748355 creator A5061393410 @default.
• W2560748355 date "2017-02-20" @default.
• W2560748355 modified "2023-10-15" @default.
• W2560748355 title "Study of Electrochemical Reduction of CO₂for Future Use in Secondary Microbial Electrochemical Technologies" @default.
• W2560748355 cites W1052928274 @default.
• W2560748355 cites W1161328857 @default.
• W2560748355 cites W174163649 @default.
• W2560748355 cites W1981626052 @default.
• W2560748355 cites W1985319478 @default.
• W2560748355 cites W1986441371 @default.
• W2560748355 cites W1988245893 @default.
• W2560748355 cites W1989149936 @default.
• W2560748355 cites W1995283758 @default.
• W2560748355 cites W1997233576 @default.
• W2560748355 cites W1997887974 @default.
• W2560748355 cites W2001969333 @default.
• W2560748355 cites W2002266840 @default.
• W2560748355 cites W2004595642 @default.
• W2560748355 cites W2006063963 @default.
• W2560748355 cites W2007923221 @default.
• W2560748355 cites W2014544890 @default.
• W2560748355 cites W2015194545 @default.
• W2560748355 cites W2017163401 @default.
• W2560748355 cites W2017428530 @default.
• W2560748355 cites W2018221287 @default.
• W2560748355 cites W2018942836 @default.
• W2560748355 cites W2021068466 @default.
• W2560748355 cites W2022743571 @default.
• W2560748355 cites W2024945073 @default.
• W2560748355 cites W2031778154 @default.
• W2560748355 cites W2031836390 @default.
• W2560748355 cites W2041511900 @default.
• W2560748355 cites W2045576555 @default.
• W2560748355 cites W2045773137 @default.
• W2560748355 cites W2046636307 @default.
• W2560748355 cites W2048280411 @default.
• W2560748355 cites W2049391710 @default.
• W2560748355 cites W2049984734 @default.
• W2560748355 cites W2052915139 @default.
• W2560748355 cites W2059168283 @default.
• W2560748355 cites W2068991907 @default.
• W2560748355 cites W2070259209 @default.
• W2560748355 cites W2075580171 @default.
• W2560748355 cites W2076209499 @default.
• W2560748355 cites W2078389501 @default.
• W2560748355 cites W2078653901 @default.
• W2560748355 cites W2080690741 @default.
• W2560748355 cites W2084333783 @default.
• W2560748355 cites W2087647114 @default.
• W2560748355 cites W2088512926 @default.
• W2560748355 cites W2089525884 @default.
• W2560748355 cites W2093448857 @default.
• W2560748355 cites W2094252425 @default.
• W2560748355 cites W2094413778 @default.
• W2560748355 cites W2105048546 @default.
• W2560748355 cites W2105565769 @default.
• W2560748355 cites W2105840275 @default.
• W2560748355 cites W2105952208 @default.
• W2560748355 cites W2118228274 @default.
• W2560748355 cites W2141196600 @default.
• W2560748355 cites W2143088327 @default.
• W2560748355 cites W2146034640 @default.
• W2560748355 cites W2146727268 @default.
• W2560748355 cites W2146973591 @default.
• W2560748355 cites W2149357772 @default.
• W2560748355 cites W2159326564 @default.
• W2560748355 cites W2163155877 @default.
• W2560748355 cites W2164315409 @default.
• W2560748355 cites W2170456486 @default.
• W2560748355 cites W2215295211 @default.
• W2560748355 cites W2223489874 @default.
• W2560748355 cites W2254174122 @default.
• W2560748355 cites W2268934201 @default.
• W2560748355 cites W229174161 @default.
• W2560748355 cites W2312983667 @default.
• W2560748355 cites W2323309348 @default.
• W2560748355 cites W2326635080 @default.
• W2560748355 cites W2342027355 @default.
• W2560748355 cites W2470760144 @default.
• W2560748355 cites W2481819809 @default.
• W2560748355 cites W2550158632 @default.
• W2560748355 cites W2586252446 @default.
• W2560748355 cites W317669297 @default.
• W2560748355 cites W4229975093 @default.
• W2560748355 cites W4230528199 @default.
• W2560748355 cites W4246568879 @default.
• W2560748355 cites W4300265536 @default.
• W2560748355 cites W4301406087 @default.
• W2560748355 cites W640348471 @default.
• W2560748355 doi "https://doi.org/10.1002/cssc.201601675" @default.
• W2560748355 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27935266" @default.
• W2560748355 hasPublicationYear "2017" @default.

• next