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David P.B.T.B. Strik
Researcher at Wageningen University and Research Centre
Publications - 86
Citations - 5974
David P.B.T.B. Strik is an academic researcher from Wageningen University and Research Centre. The author has contributed to research in topics: Microbial fuel cell & Microbial electrosynthesis. The author has an hindex of 38, co-authored 81 publications receiving 4579 citations.
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Journal ArticleDOI
Chain Elongation with Reactor Microbiomes: Open-Culture Biotechnology To Produce Biochemicals.
Largus T. Angenent,Hanno Richter,Wolfgang Buckel,Catherine M. Spirito,K.J.J. Steinbusch,Caroline M. Plugge,David P.B.T.B. Strik,T.I.M. Grootscholten,Cees J.N. Buisman,Hubertus V.M. Hamelers +9 more
TL;DR: A stoichiometric and thermodynamic model is delved into that sheds light on the effect of substrate ratios and environmental conditions on product formation and was reviewed to bring together research from different fields.
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Green electricity production with living plants and bacteria in a fuel cell
TL;DR: In this paper, the authors presented the plant microbial fuel cell (plantMFC), a concept that exploits a bioenergy source in situ, where plants and bacteria were present to convert solar energy into green electricity.
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An overview on emerging bioelectrochemical systems (BESs): Technology for sustainable electricity, waste remediation, resource recovery, chemical production and beyond
Suman Bajracharya,Suman Bajracharya,Mohita Sharma,Mohita Sharma,Gunda Mohanakrishna,Xochitl Dominguez Benneton,David P.B.T.B. Strik,Priyangshu M. Sarma,Deepak Pant +8 more
TL;DR: Bioelectrochemical systems (BESs) are unique systems capable of converting chemical energy into electrical energy (and vice-versa) while employing microbes as catalysts.
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Carbon dioxide reduction by mixed and pure cultures in microbial electrosynthesis using an assembly of graphite felt and stainless steel as a cathode
Suman Bajracharya,Annemiek ter Heijne,Xochitl Dominguez Benetton,Karolien Vanbroekhoven,Cees J.N. Buisman,David P.B.T.B. Strik,Deepak Pant +6 more
TL;DR: CO2 reduction to multi-carbon compounds at the cathode using chemolithoautotrophs is an emerging application of microbial electrosynthesis (MES) and hydrogen evolution is potentially the rapid way of transferring electrons to the biocatalysts for higher bioproduction rates.
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New applications and performance of bioelectrochemical systems
Hubertus V.M. Hamelers,Annemiek ter Heijne,Tom H. J. A. Sleutels,Adriaan W. Jeremiasse,David P.B.T.B. Strik,Cees J.N. Buisman +5 more
TL;DR: This mini review focuses on technological aspects of the expanding application of BESs and analyzes the anode and cathode half-reactions in terms of their standard and actual potential and reports the overpotentials of these half- reactions by comparing the reported potentials with their theoretical potentials.