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W4310336541 endingPage "302" @default.
W4310336541 startingPage "281" @default.
W4310336541 abstract "Anthropogenic global warming is driven by the increasing energy demand and the still dominant use of fossil energy carriers to meet these needs. New carbon-neutral energy sources are urgently needed to solve this problem. Biophotovoltaics, a member of the so-called bioelectrochemical systems family, will provide an important piece of the energy puzzle. It aims to harvest the electrons from sunlight-driven water splitting using the natural oxygenic photosystem (e.g., of cyanobacteria) and utilize them in the form of, e.g., electricity or hydrogen. Several key aspects of biophotovoltaics have been intensively studied in recent years like physicochemical properties of electrodes or efficient wiring of microorganisms to electrodes. Yet, the exact mechanisms of electron transfer between the biocatalyst and the electrode remain unresolved today. Most research is conducted on microscale reactors generating small currents over short time-scales, but multiple experiments have shown biophotovoltaics great potential with lab-scale reactors producing currents over weeks to months. Although biophotovoltaics is still in its infancy with many open research questions to be addressed, new promising results from various labs around the world suggest an important opportunity for biophotovoltaics in the decades to come. In this chapter, we will introduce the concept of biophotovoltaics, summarize its recent key progress, and finally critically discuss the potentials and challenges for future rational development of biophotovoltaics." @default.
W4310336541 created "2022-12-08" @default.
W4310336541 creator A5024569149 @default.
W4310336541 creator A5061613831 @default.
W4310336541 creator A5090214319 @default.
W4310336541 date "2022-01-01" @default.
W4310336541 modified "2023-09-27" @default.
W4310336541 title "Utilizing Cyanobacteria in Biophotovoltaics: An Emerging Field in Bioelectrochemistry" @default.
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