Atomically dispersed nickel as coke-resistant active sites for methane dry reforming

While dry reforming of methane, the reaction of CH4 and CO2 to create CO and H2, is a promising reaction for industry, coke buildup often deactivates catalysts and limits commercialization. Here, authors report single-atom nickel on Ce-doped hydroxyapatite as a coke-resistant catalyst.

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Autores principales: Mohcin Akri, Shu Zhao, Xiaoyu Li, Ketao Zang, Adam F. Lee, Mark A. Isaacs, Wei Xi, Yuvaraj Gangarajula, Jun Luo, Yujing Ren, Yi-Tao Cui, Lei Li, Yang Su, Xiaoli Pan, Wu Wen, Yang Pan, Karen Wilson, Lin Li, Botao Qiao, Hirofumi Ishii, Yen-Fa Liao, Aiqin Wang, Xiaodong Wang, Tao Zhang
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Lenguaje:EN
Publicado: Nature Portfolio 2019
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Acceso en línea:https://doaj.org/article/953f2268b0b747aabe63718503b1f052
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spelling oai:doaj.org-article:953f2268b0b747aabe63718503b1f0522021-12-02T14:38:58ZAtomically dispersed nickel as coke-resistant active sites for methane dry reforming10.1038/s41467-019-12843-w2041-1723https://doaj.org/article/953f2268b0b747aabe63718503b1f0522019-11-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-12843-whttps://doaj.org/toc/2041-1723While dry reforming of methane, the reaction of CH4 and CO2 to create CO and H2, is a promising reaction for industry, coke buildup often deactivates catalysts and limits commercialization. Here, authors report single-atom nickel on Ce-doped hydroxyapatite as a coke-resistant catalyst.Mohcin AkriShu ZhaoXiaoyu LiKetao ZangAdam F. LeeMark A. IsaacsWei XiYuvaraj GangarajulaJun LuoYujing RenYi-Tao CuiLei LiYang SuXiaoli PanWu WenYang PanKaren WilsonLin LiBotao QiaoHirofumi IshiiYen-Fa LiaoAiqin WangXiaodong WangTao ZhangNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-10 (2019)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Mohcin Akri
Shu Zhao
Xiaoyu Li
Ketao Zang
Adam F. Lee
Mark A. Isaacs
Wei Xi
Yuvaraj Gangarajula
Jun Luo
Yujing Ren
Yi-Tao Cui
Lei Li
Yang Su
Xiaoli Pan
Wu Wen
Yang Pan
Karen Wilson
Lin Li
Botao Qiao
Hirofumi Ishii
Yen-Fa Liao
Aiqin Wang
Xiaodong Wang
Tao Zhang
Atomically dispersed nickel as coke-resistant active sites for methane dry reforming
description While dry reforming of methane, the reaction of CH4 and CO2 to create CO and H2, is a promising reaction for industry, coke buildup often deactivates catalysts and limits commercialization. Here, authors report single-atom nickel on Ce-doped hydroxyapatite as a coke-resistant catalyst.
format article
author Mohcin Akri
Shu Zhao
Xiaoyu Li
Ketao Zang
Adam F. Lee
Mark A. Isaacs
Wei Xi
Yuvaraj Gangarajula
Jun Luo
Yujing Ren
Yi-Tao Cui
Lei Li
Yang Su
Xiaoli Pan
Wu Wen
Yang Pan
Karen Wilson
Lin Li
Botao Qiao
Hirofumi Ishii
Yen-Fa Liao
Aiqin Wang
Xiaodong Wang
Tao Zhang
author_facet Mohcin Akri
Shu Zhao
Xiaoyu Li
Ketao Zang
Adam F. Lee
Mark A. Isaacs
Wei Xi
Yuvaraj Gangarajula
Jun Luo
Yujing Ren
Yi-Tao Cui
Lei Li
Yang Su
Xiaoli Pan
Wu Wen
Yang Pan
Karen Wilson
Lin Li
Botao Qiao
Hirofumi Ishii
Yen-Fa Liao
Aiqin Wang
Xiaodong Wang
Tao Zhang
author_sort Mohcin Akri
title Atomically dispersed nickel as coke-resistant active sites for methane dry reforming
title_short Atomically dispersed nickel as coke-resistant active sites for methane dry reforming
title_full Atomically dispersed nickel as coke-resistant active sites for methane dry reforming
title_fullStr Atomically dispersed nickel as coke-resistant active sites for methane dry reforming
title_full_unstemmed Atomically dispersed nickel as coke-resistant active sites for methane dry reforming
title_sort atomically dispersed nickel as coke-resistant active sites for methane dry reforming
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/953f2268b0b747aabe63718503b1f052
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