Colloidal silver diphosphide (AgP2) nanocrystals as low overpotential catalysts for CO2 reduction to tunable syngas

Conversion of CO2 into value-added chemicals by use of renewable energy is promising to achieve a carbon-neutral energy cycle. Here, the authors show that AgP2 is a stable, selective and efficient syngas catalyst for solar-to-fuel conversion with a 3-fold lower overpotential compared to the benchmar...

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Autores principales: Hui Li, Peng Wen, Dominique S. Itanze, Zachary D. Hood, Xiao Ma, Michael Kim, Shiba Adhikari, Chang Lu, Chaochao Dun, Miaofang Chi, Yejun Qiu, Scott M. Geyer
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Lenguaje:EN
Publicado: Nature Portfolio 2019
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Acceso en línea:https://doaj.org/article/05fdb09a23574c589d2737d05a141c41
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spelling oai:doaj.org-article:05fdb09a23574c589d2737d05a141c412021-12-02T17:02:07ZColloidal silver diphosphide (AgP2) nanocrystals as low overpotential catalysts for CO2 reduction to tunable syngas10.1038/s41467-019-13388-82041-1723https://doaj.org/article/05fdb09a23574c589d2737d05a141c412019-12-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-13388-8https://doaj.org/toc/2041-1723Conversion of CO2 into value-added chemicals by use of renewable energy is promising to achieve a carbon-neutral energy cycle. Here, the authors show that AgP2 is a stable, selective and efficient syngas catalyst for solar-to-fuel conversion with a 3-fold lower overpotential compared to the benchmark Ag catalyst.Hui LiPeng WenDominique S. ItanzeZachary D. HoodXiao MaMichael KimShiba AdhikariChang LuChaochao DunMiaofang ChiYejun QiuScott M. GeyerNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-10 (2019)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Hui Li
Peng Wen
Dominique S. Itanze
Zachary D. Hood
Xiao Ma
Michael Kim
Shiba Adhikari
Chang Lu
Chaochao Dun
Miaofang Chi
Yejun Qiu
Scott M. Geyer
Colloidal silver diphosphide (AgP2) nanocrystals as low overpotential catalysts for CO2 reduction to tunable syngas
description Conversion of CO2 into value-added chemicals by use of renewable energy is promising to achieve a carbon-neutral energy cycle. Here, the authors show that AgP2 is a stable, selective and efficient syngas catalyst for solar-to-fuel conversion with a 3-fold lower overpotential compared to the benchmark Ag catalyst.
format article
author Hui Li
Peng Wen
Dominique S. Itanze
Zachary D. Hood
Xiao Ma
Michael Kim
Shiba Adhikari
Chang Lu
Chaochao Dun
Miaofang Chi
Yejun Qiu
Scott M. Geyer
author_facet Hui Li
Peng Wen
Dominique S. Itanze
Zachary D. Hood
Xiao Ma
Michael Kim
Shiba Adhikari
Chang Lu
Chaochao Dun
Miaofang Chi
Yejun Qiu
Scott M. Geyer
author_sort Hui Li
title Colloidal silver diphosphide (AgP2) nanocrystals as low overpotential catalysts for CO2 reduction to tunable syngas
title_short Colloidal silver diphosphide (AgP2) nanocrystals as low overpotential catalysts for CO2 reduction to tunable syngas
title_full Colloidal silver diphosphide (AgP2) nanocrystals as low overpotential catalysts for CO2 reduction to tunable syngas
title_fullStr Colloidal silver diphosphide (AgP2) nanocrystals as low overpotential catalysts for CO2 reduction to tunable syngas
title_full_unstemmed Colloidal silver diphosphide (AgP2) nanocrystals as low overpotential catalysts for CO2 reduction to tunable syngas
title_sort colloidal silver diphosphide (agp2) nanocrystals as low overpotential catalysts for co2 reduction to tunable syngas
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/05fdb09a23574c589d2737d05a141c41
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