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김진현

Kim, Jinhyun
Sustainable Energy Materials Laboratory
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Z-Schematic Artificial Leaf Structure for Biosolar Oxyfunctionalization of Hydrocarbons

Author(s)
Lee, Chung HyunKim, JinhyunPark, Chan Beum
Issued Date
2023-05
DOI
10.1021/acsenergylett.3c00587
URI
https://scholarworks.unist.ac.kr/handle/201301/84430
Citation
ACS ENERGY LETTERS, v.8, no.6, pp.2513 - 2521
Abstract
The natural Z-schematic photosynthesis is a promising catalytic model for solar-to-chemical conversion. Here, we construct a Z-schematic, wireless photoelectrocatalytic (PEC) system (i.e., artificial leaf) for biocatalytic oxyfunctionalization of hydrocarbons. The monolithic leaf structure consists of a tandem photoanode|photocathode configuration that uses sunlight as the sole energy source to drive redox reactions. Under solar light, the ferric oxyhydroxide-coated, molybdenum-doped bismuth vanadate (FeOOH|Mo:BVO) photoanode extracts electrons from H2O electron feedstock and transfers the electrons to the conjugated polyterthiophene (pTTh) photocathode. Meanwhile, the pTTh photocathode absorbs FeOOH|Mo:BVO-filtered light for O2 reduction to H2O2. The in situ generated H2O2 activates unspecific peroxygenases (UPOs) to drive enantioselective C-H oxyfunctionalization (e.g., hydroxylation and epoxidation). Furthermore, we solve HO center dot-mediated inactivation of UPOs using a cellulose membrane, which increases enzymatic productivity with a benchmark total turnover number of 193 000 among PEC and photocatalytic platforms that trigger UPO-mediated synthesis.
Publisher
AMER CHEMICAL SOC
ISSN
2380-8195
Keyword
SOLAR-DRIVENELECTROCHEMICAL SYNTHESISLIGHTBIOCATALYSISHYDROGELCO2WATER OXIDATIONCARBON NITRIDE

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