Quasi-square-shaped cadmium hydroxide nanocatalysts for electrochemical CO(2) reduction with high efficiency

Powered by a renewable electricity source, electrochemical CO(2) reduction reaction is a promising solution to facilitate the carbon balance. However, it is still a challenge to achieve a desired product with commercial current density and high efficiency. Herein we designed quasi-square-shaped cadm...

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Autores principales: Chen, Chunjun, Yan, Xupeng, Wu, Ruizhi, Wu, Yahui, Zhu, Qinggong, Hou, Minqiang, Zhang, Zhaofu, Fan, Honglei, Ma, Jun, Huang, Yuying, Ma, Jingyuan, Sun, Xiaofu, Lin, Longfei, Liu, Shoujie, Han, Buxing
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2021
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8442700/
https://www.ncbi.nlm.nih.gov/pubmed/34659731
http://dx.doi.org/10.1039/d1sc02328d
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author Chen, Chunjun
Yan, Xupeng
Wu, Ruizhi
Wu, Yahui
Zhu, Qinggong
Hou, Minqiang
Zhang, Zhaofu
Fan, Honglei
Ma, Jun
Huang, Yuying
Ma, Jingyuan
Sun, Xiaofu
Lin, Longfei
Liu, Shoujie
Han, Buxing
author_facet Chen, Chunjun
Yan, Xupeng
Wu, Ruizhi
Wu, Yahui
Zhu, Qinggong
Hou, Minqiang
Zhang, Zhaofu
Fan, Honglei
Ma, Jun
Huang, Yuying
Ma, Jingyuan
Sun, Xiaofu
Lin, Longfei
Liu, Shoujie
Han, Buxing
author_sort Chen, Chunjun
collection PubMed
description Powered by a renewable electricity source, electrochemical CO(2) reduction reaction is a promising solution to facilitate the carbon balance. However, it is still a challenge to achieve a desired product with commercial current density and high efficiency. Herein we designed quasi-square-shaped cadmium hydroxide nanocatalysts for CO(2) electroreduction to CO. It was discovered that the catalyst is very active and selective for the reaction. The current density could be as high as 200 mA cm(−2) with a nearly 100% selectivity in a commonly used H-type cell using the ionic liquid-based electrolyte. In addition, the faradaic efficiency of CO could reach 90% at a very low overpotential of 100 mV. Density functional theory studies and control experiments reveal that the outstanding performance of the catalyst was attributed to its unique structure. It not only provides low Cd–O coordination, but also exposes high activity (002) facet, which requires lower energy for the formation of CO. Besides, the high concentration of CO can be achieved from the low concentration CO(2)via an adsorption-electrolysis device.
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spelling pubmed-84427002021-10-14 Quasi-square-shaped cadmium hydroxide nanocatalysts for electrochemical CO(2) reduction with high efficiency Chen, Chunjun Yan, Xupeng Wu, Ruizhi Wu, Yahui Zhu, Qinggong Hou, Minqiang Zhang, Zhaofu Fan, Honglei Ma, Jun Huang, Yuying Ma, Jingyuan Sun, Xiaofu Lin, Longfei Liu, Shoujie Han, Buxing Chem Sci Chemistry Powered by a renewable electricity source, electrochemical CO(2) reduction reaction is a promising solution to facilitate the carbon balance. However, it is still a challenge to achieve a desired product with commercial current density and high efficiency. Herein we designed quasi-square-shaped cadmium hydroxide nanocatalysts for CO(2) electroreduction to CO. It was discovered that the catalyst is very active and selective for the reaction. The current density could be as high as 200 mA cm(−2) with a nearly 100% selectivity in a commonly used H-type cell using the ionic liquid-based electrolyte. In addition, the faradaic efficiency of CO could reach 90% at a very low overpotential of 100 mV. Density functional theory studies and control experiments reveal that the outstanding performance of the catalyst was attributed to its unique structure. It not only provides low Cd–O coordination, but also exposes high activity (002) facet, which requires lower energy for the formation of CO. Besides, the high concentration of CO can be achieved from the low concentration CO(2)via an adsorption-electrolysis device. The Royal Society of Chemistry 2021-08-10 /pmc/articles/PMC8442700/ /pubmed/34659731 http://dx.doi.org/10.1039/d1sc02328d Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by/3.0/
spellingShingle Chemistry
Chen, Chunjun
Yan, Xupeng
Wu, Ruizhi
Wu, Yahui
Zhu, Qinggong
Hou, Minqiang
Zhang, Zhaofu
Fan, Honglei
Ma, Jun
Huang, Yuying
Ma, Jingyuan
Sun, Xiaofu
Lin, Longfei
Liu, Shoujie
Han, Buxing
Quasi-square-shaped cadmium hydroxide nanocatalysts for electrochemical CO(2) reduction with high efficiency
title Quasi-square-shaped cadmium hydroxide nanocatalysts for electrochemical CO(2) reduction with high efficiency
title_full Quasi-square-shaped cadmium hydroxide nanocatalysts for electrochemical CO(2) reduction with high efficiency
title_fullStr Quasi-square-shaped cadmium hydroxide nanocatalysts for electrochemical CO(2) reduction with high efficiency
title_full_unstemmed Quasi-square-shaped cadmium hydroxide nanocatalysts for electrochemical CO(2) reduction with high efficiency
title_short Quasi-square-shaped cadmium hydroxide nanocatalysts for electrochemical CO(2) reduction with high efficiency
title_sort quasi-square-shaped cadmium hydroxide nanocatalysts for electrochemical co(2) reduction with high efficiency
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8442700/
https://www.ncbi.nlm.nih.gov/pubmed/34659731
http://dx.doi.org/10.1039/d1sc02328d
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