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Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction

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Zeitschriftentitel: Angewandte Chemie
Personen und Körperschaften: Long, Xiaojing, Li, Daohao, Wang, Binbin, Jiang, Zhenjie, Xu, Wenjia, Wang, Bingbing, Yang, Dongjiang, Xia, Yanzhi
In: Angewandte Chemie, 131, 2019, 33, S. 11491-11495
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
General Medicine
author_facet Long, Xiaojing
Li, Daohao
Wang, Binbin
Jiang, Zhenjie
Xu, Wenjia
Wang, Bingbing
Yang, Dongjiang
Xia, Yanzhi
Long, Xiaojing
Li, Daohao
Wang, Binbin
Jiang, Zhenjie
Xu, Wenjia
Wang, Bingbing
Yang, Dongjiang
Xia, Yanzhi
author Long, Xiaojing
Li, Daohao
Wang, Binbin
Jiang, Zhenjie
Xu, Wenjia
Wang, Bingbing
Yang, Dongjiang
Xia, Yanzhi
spellingShingle Long, Xiaojing
Li, Daohao
Wang, Binbin
Jiang, Zhenjie
Xu, Wenjia
Wang, Bingbing
Yang, Dongjiang
Xia, Yanzhi
Angewandte Chemie
Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction
General Medicine
author_sort long, xiaojing
spelling Long, Xiaojing Li, Daohao Wang, Binbin Jiang, Zhenjie Xu, Wenjia Wang, Bingbing Yang, Dongjiang Xia, Yanzhi 0044-8249 1521-3757 Wiley General Medicine http://dx.doi.org/10.1002/ange.201905468 <jats:title>Abstract</jats:title><jats:p>Exploring cost‐effective and efficient metal‐free electrocatalysts for the oxygen reduction reaction (ORR) is crucial for the development of energy conversion and storage technologies. Reported here is a novel heterocyclization strategy to construct efficient ORR catalysts based on linear conjugated polymers (LCPs), which are composed of N‐, S‐, or Se‐heterocycles. Among these polymers, the covalently linked pyridine and thiophene molecule (<jats:bold>P‐T</jats:bold>) with reduced graphene oxide (rGO) exhibits a remarkable half‐wave potential of 0.79 V (vs. RHE) and excellent electrochemical stability, which are among the highest values for metal‐free polymers as ORR catalysts. Density‐functional theory (DFT) calculations reveal that the molecule with a phenyl unit (<jats:bold>P‐Ph</jats:bold>) is catalytically inactive, and when a thiophene unit is introduced to replace the phenyl unit in the conjugated backbone it features highly efficient electrocatalytic active sites. More importantly, the well‐defined molecular structures and controllable active sites in the pyrolysis and metal‐free polymers highlight new opportunities for the catalytic metal‐free ORR.</jats:p> Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction Angewandte Chemie
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title Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction
title_unstemmed Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction
title_full Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction
title_fullStr Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction
title_full_unstemmed Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction
title_short Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction
title_sort heterocyclization strategy for construction of linear conjugated polymers: efficient metal‐free electrocatalysts for oxygen reduction
topic General Medicine
url http://dx.doi.org/10.1002/ange.201905468
publishDate 2019
physical 11491-11495
description <jats:title>Abstract</jats:title><jats:p>Exploring cost‐effective and efficient metal‐free electrocatalysts for the oxygen reduction reaction (ORR) is crucial for the development of energy conversion and storage technologies. Reported here is a novel heterocyclization strategy to construct efficient ORR catalysts based on linear conjugated polymers (LCPs), which are composed of N‐, S‐, or Se‐heterocycles. Among these polymers, the covalently linked pyridine and thiophene molecule (<jats:bold>P‐T</jats:bold>) with reduced graphene oxide (rGO) exhibits a remarkable half‐wave potential of 0.79 V (vs. RHE) and excellent electrochemical stability, which are among the highest values for metal‐free polymers as ORR catalysts. Density‐functional theory (DFT) calculations reveal that the molecule with a phenyl unit (<jats:bold>P‐Ph</jats:bold>) is catalytically inactive, and when a thiophene unit is introduced to replace the phenyl unit in the conjugated backbone it features highly efficient electrocatalytic active sites. More importantly, the well‐defined molecular structures and controllable active sites in the pyrolysis and metal‐free polymers highlight new opportunities for the catalytic metal‐free ORR.</jats:p>
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author Long, Xiaojing, Li, Daohao, Wang, Binbin, Jiang, Zhenjie, Xu, Wenjia, Wang, Bingbing, Yang, Dongjiang, Xia, Yanzhi
author_facet Long, Xiaojing, Li, Daohao, Wang, Binbin, Jiang, Zhenjie, Xu, Wenjia, Wang, Bingbing, Yang, Dongjiang, Xia, Yanzhi, Long, Xiaojing, Li, Daohao, Wang, Binbin, Jiang, Zhenjie, Xu, Wenjia, Wang, Bingbing, Yang, Dongjiang, Xia, Yanzhi
author_sort long, xiaojing
container_issue 33
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container_title Angewandte Chemie
container_volume 131
description <jats:title>Abstract</jats:title><jats:p>Exploring cost‐effective and efficient metal‐free electrocatalysts for the oxygen reduction reaction (ORR) is crucial for the development of energy conversion and storage technologies. Reported here is a novel heterocyclization strategy to construct efficient ORR catalysts based on linear conjugated polymers (LCPs), which are composed of N‐, S‐, or Se‐heterocycles. Among these polymers, the covalently linked pyridine and thiophene molecule (<jats:bold>P‐T</jats:bold>) with reduced graphene oxide (rGO) exhibits a remarkable half‐wave potential of 0.79 V (vs. RHE) and excellent electrochemical stability, which are among the highest values for metal‐free polymers as ORR catalysts. Density‐functional theory (DFT) calculations reveal that the molecule with a phenyl unit (<jats:bold>P‐Ph</jats:bold>) is catalytically inactive, and when a thiophene unit is introduced to replace the phenyl unit in the conjugated backbone it features highly efficient electrocatalytic active sites. More importantly, the well‐defined molecular structures and controllable active sites in the pyrolysis and metal‐free polymers highlight new opportunities for the catalytic metal‐free ORR.</jats:p>
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spelling Long, Xiaojing Li, Daohao Wang, Binbin Jiang, Zhenjie Xu, Wenjia Wang, Bingbing Yang, Dongjiang Xia, Yanzhi 0044-8249 1521-3757 Wiley General Medicine http://dx.doi.org/10.1002/ange.201905468 <jats:title>Abstract</jats:title><jats:p>Exploring cost‐effective and efficient metal‐free electrocatalysts for the oxygen reduction reaction (ORR) is crucial for the development of energy conversion and storage technologies. Reported here is a novel heterocyclization strategy to construct efficient ORR catalysts based on linear conjugated polymers (LCPs), which are composed of N‐, S‐, or Se‐heterocycles. Among these polymers, the covalently linked pyridine and thiophene molecule (<jats:bold>P‐T</jats:bold>) with reduced graphene oxide (rGO) exhibits a remarkable half‐wave potential of 0.79 V (vs. RHE) and excellent electrochemical stability, which are among the highest values for metal‐free polymers as ORR catalysts. Density‐functional theory (DFT) calculations reveal that the molecule with a phenyl unit (<jats:bold>P‐Ph</jats:bold>) is catalytically inactive, and when a thiophene unit is introduced to replace the phenyl unit in the conjugated backbone it features highly efficient electrocatalytic active sites. More importantly, the well‐defined molecular structures and controllable active sites in the pyrolysis and metal‐free polymers highlight new opportunities for the catalytic metal‐free ORR.</jats:p> Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction Angewandte Chemie
spellingShingle Long, Xiaojing, Li, Daohao, Wang, Binbin, Jiang, Zhenjie, Xu, Wenjia, Wang, Bingbing, Yang, Dongjiang, Xia, Yanzhi, Angewandte Chemie, Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction, General Medicine
title Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction
title_full Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction
title_fullStr Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction
title_full_unstemmed Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction
title_short Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction
title_sort heterocyclization strategy for construction of linear conjugated polymers: efficient metal‐free electrocatalysts for oxygen reduction
title_unstemmed Heterocyclization Strategy for Construction of Linear Conjugated Polymers: Efficient Metal‐Free Electrocatalysts for Oxygen Reduction
topic General Medicine
url http://dx.doi.org/10.1002/ange.201905468