Empower C1: Combination of Electrochemistry and Biology to Convert C1 Compounds
The idea to somehow combine electrical current and biological systems is not new. It was subject of research as well as of science fiction literature for decades. Nowadays, in times of limited resources and the need to capture greenhouse gases like CO , this combination gains increasing interest, si...
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| Published in | Advances in biochemical engineering, biotechnology Vol. 180; p. 213 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Germany
01.01.2022
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| Subjects | |
| Online Access | Get more information |
| ISSN | 0724-6145 |
| DOI | 10.1007/10_2021_171 |
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| Abstract | The idea to somehow combine electrical current and biological systems is not new. It was subject of research as well as of science fiction literature for decades. Nowadays, in times of limited resources and the need to capture greenhouse gases like CO
, this combination gains increasing interest, since it might allow to use C1 compounds and highly oxidized compounds as substrate for microbial production by "activating" them with additional electrons. In this chapter, different possibilities to combine electrochemistry and biology to convert C1 compounds into useful products will be discussed. The chapter first shows electrochemical conversion of C1 compounds, allowing the use of the product as substrate for a subsequent biosynthesis in uncoupled systems, further leads to coupled systems of biology and electrochemical conversion, and finally reaches the discipline of bioelectrosynthesis, where electrical current and C1 compounds are directly converted by microorganisms or enzymes. This overview will give an idea about the potentials and challenges of combining electrochemistry and biology to convert C1 molecules. |
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| AbstractList | The idea to somehow combine electrical current and biological systems is not new. It was subject of research as well as of science fiction literature for decades. Nowadays, in times of limited resources and the need to capture greenhouse gases like CO
, this combination gains increasing interest, since it might allow to use C1 compounds and highly oxidized compounds as substrate for microbial production by "activating" them with additional electrons. In this chapter, different possibilities to combine electrochemistry and biology to convert C1 compounds into useful products will be discussed. The chapter first shows electrochemical conversion of C1 compounds, allowing the use of the product as substrate for a subsequent biosynthesis in uncoupled systems, further leads to coupled systems of biology and electrochemical conversion, and finally reaches the discipline of bioelectrosynthesis, where electrical current and C1 compounds are directly converted by microorganisms or enzymes. This overview will give an idea about the potentials and challenges of combining electrochemistry and biology to convert C1 molecules. |
| Author | Holtmann, Dirk Pfitzer, Marc Enzmann, Franziska Stöckl, Markus |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/34518909$$D View this record in MEDLINE/PubMed |
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| Copyright | 2021. The Author(s), under exclusive license to Springer Nature Switzerland AG. |
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| Keywords | Electrochemistry Microbial electrosynthesis Bioelectrotechnology CO2 conversion Methanogenesis |
| Language | English |
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| Title | Empower C1: Combination of Electrochemistry and Biology to Convert C1 Compounds |
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