Bulk tungsten-substituted vanadium oxide for low-temperature NOx removal in the presence of water

NH3 selective catalytic reduction is an important technique for NOx removal but water vapor critically inhibits the reaction at a low temperature. Here the authors show bulk W-substituted VOx exhibits higher NOx removal ability than the TiO2 supported vanadia catalyst in the presence of water.

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Autores principales: Yusuke Inomata, Hiroe Kubota, Shinichi Hata, Eiji Kiyonaga, Keiichiro Morita, Kazuhiro Yoshida, Norihito Sakaguchi, Takashi Toyao, Ken-ichi Shimizu, Satoshi Ishikawa, Wataru Ueda, Masatake Haruta, Toru Murayama
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Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/d8ff22c74df3456e90ed69cb00aa81c8
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spelling oai:doaj.org-article:d8ff22c74df3456e90ed69cb00aa81c82021-12-02T14:16:13ZBulk tungsten-substituted vanadium oxide for low-temperature NOx removal in the presence of water10.1038/s41467-020-20867-w2041-1723https://doaj.org/article/d8ff22c74df3456e90ed69cb00aa81c82021-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-20867-whttps://doaj.org/toc/2041-1723NH3 selective catalytic reduction is an important technique for NOx removal but water vapor critically inhibits the reaction at a low temperature. Here the authors show bulk W-substituted VOx exhibits higher NOx removal ability than the TiO2 supported vanadia catalyst in the presence of water.Yusuke InomataHiroe KubotaShinichi HataEiji KiyonagaKeiichiro MoritaKazuhiro YoshidaNorihito SakaguchiTakashi ToyaoKen-ichi ShimizuSatoshi IshikawaWataru UedaMasatake HarutaToru MurayamaNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-11 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Yusuke Inomata
Hiroe Kubota
Shinichi Hata
Eiji Kiyonaga
Keiichiro Morita
Kazuhiro Yoshida
Norihito Sakaguchi
Takashi Toyao
Ken-ichi Shimizu
Satoshi Ishikawa
Wataru Ueda
Masatake Haruta
Toru Murayama
Bulk tungsten-substituted vanadium oxide for low-temperature NOx removal in the presence of water
description NH3 selective catalytic reduction is an important technique for NOx removal but water vapor critically inhibits the reaction at a low temperature. Here the authors show bulk W-substituted VOx exhibits higher NOx removal ability than the TiO2 supported vanadia catalyst in the presence of water.
format article
author Yusuke Inomata
Hiroe Kubota
Shinichi Hata
Eiji Kiyonaga
Keiichiro Morita
Kazuhiro Yoshida
Norihito Sakaguchi
Takashi Toyao
Ken-ichi Shimizu
Satoshi Ishikawa
Wataru Ueda
Masatake Haruta
Toru Murayama
author_facet Yusuke Inomata
Hiroe Kubota
Shinichi Hata
Eiji Kiyonaga
Keiichiro Morita
Kazuhiro Yoshida
Norihito Sakaguchi
Takashi Toyao
Ken-ichi Shimizu
Satoshi Ishikawa
Wataru Ueda
Masatake Haruta
Toru Murayama
author_sort Yusuke Inomata
title Bulk tungsten-substituted vanadium oxide for low-temperature NOx removal in the presence of water
title_short Bulk tungsten-substituted vanadium oxide for low-temperature NOx removal in the presence of water
title_full Bulk tungsten-substituted vanadium oxide for low-temperature NOx removal in the presence of water
title_fullStr Bulk tungsten-substituted vanadium oxide for low-temperature NOx removal in the presence of water
title_full_unstemmed Bulk tungsten-substituted vanadium oxide for low-temperature NOx removal in the presence of water
title_sort bulk tungsten-substituted vanadium oxide for low-temperature nox removal in the presence of water
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/d8ff22c74df3456e90ed69cb00aa81c8
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