Two-dimensional gersiloxenes with tunable bandgap for photocatalytic H2 evolution and CO2 photoreduction to CO

Solar energy conversion may provide a renewable means to store energy as fuels, although there are a limited range of suitable photocatalysts. Here authors develop germanium and silicon based 2D materials with tunable bandgaps for high-performance photocatalytic water and CO2 reduction.

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Détails bibliographiques
Auteurs principaux:	Fulai Zhao, Yiyu Feng, Yu Wang, Xin Zhang, Xuejing Liang, Zhen Li, Fei Zhang, Tuo Wang, Jinlong Gong, Wei Feng
Format:	article
Langue:	EN
Publié:	Nature Portfolio 2020
Sujets:	Science Q
Accès en ligne:	https://doaj.org/article/8965cf25e04e434593eb45f4d9a8b8bb
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Résumé:	Solar energy conversion may provide a renewable means to store energy as fuels, although there are a limited range of suitable photocatalysts. Here authors develop germanium and silicon based 2D materials with tunable bandgaps for high-performance photocatalytic water and CO2 reduction.

Two-dimensional gersiloxenes with tunable bandgap for photocatalytic H2 evolution and CO2 photoreduction to CO

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