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Synthetic Semiconductor Photoelectrochemistry
The Chemical Record ( IF 7.0 ) Pub Date : 2021-03-26 , DOI: 10.1002/tcr.202100029 Yohei Okada 1
The Chemical Record ( IF 7.0 ) Pub Date : 2021-03-26 , DOI: 10.1002/tcr.202100029 Yohei Okada 1
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In the field of synthetic organic chemistry, photochemical and electrochemical approaches are often considered to be competing technologies that induce single electron transfer (SET). Recently, their fusion, i. e., the “photoelectrochemical” approach, has become the focus of attention. In this approach, both solar and electrical energy are used in creative combinations. Historically, the term “photoelectrochemistry” has been used in more inorganic fields, where a photovoltaic effect exhibited by semiconducting materials is employed. Semiconductors have also been studied intensively as photocatalysts; however, they recently have taken a back seat to molecular photocatalysts. In this account, we would like to revisit semiconductor photocatalysts in the field of synthetic organic chemistry to demonstrate that semiconductor “photoelectrochemical” approaches are more than mere alternatives to molecular photochemical and/or electrochemical approaches.
中文翻译:
合成半导体光电化学
在合成有机化学领域,光化学和电化学方法通常被认为是诱导单电子转移 (SET) 的竞争技术。最近,他们的融合,我。例如,“光电化学”方法已成为关注的焦点。在这种方法中,太阳能和电能被创造性地结合使用。从历史上看,术语“光电化学”已用于更多无机领域,其中使用半导体材料表现出的光伏效应。半导体作为光催化剂也得到了深入研究。然而,他们最近在分子光催化剂面前退居二线。在这个账户中,
更新日期:2021-03-26
中文翻译:
合成半导体光电化学
在合成有机化学领域,光化学和电化学方法通常被认为是诱导单电子转移 (SET) 的竞争技术。最近,他们的融合,我。例如,“光电化学”方法已成为关注的焦点。在这种方法中,太阳能和电能被创造性地结合使用。从历史上看,术语“光电化学”已用于更多无机领域,其中使用半导体材料表现出的光伏效应。半导体作为光催化剂也得到了深入研究。然而,他们最近在分子光催化剂面前退居二线。在这个账户中,
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