Atomically Dispersed Semimetallic Selenium on Porous Carbon Membrane as an Electrode for Hydrazine Fuel Cells

Electrochemically functional porous membranes of low cost are appealing in various electrochemical devices used in modern environmental and energy technologies. Herein we describe a scalable strategy to construct electrochemically active, hierarchically porous carbon membranes containing atomically...

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Veröffentlicht in:	Angewandte Chemie International Edition 2019-09, Vol.58 (38), p.13466-13471
Hauptverfasser:	Wang, Tongzhou, Wang, Qiang, Wang, Yucheng, Da, Yunli, Zhou, Wu, Shao, Yue, Li, Debao, Zhan, Sihui, Yuan, Jiayin, Wang, Hong
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Sprache:	eng
Schlagworte:	atomically dispersed Carbon Catalysis Catalysts Catalytic activity Dispersion Domains electrocatalysis Electrochemistry Energy technology Fuel cells Fuel technology Hydrazine hydrazine oxidation Hydrazines Membranes Noble metals Oxidation porous carbon membranes Ring structures Selenium Single atom catalysts Spacecraft
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container_title	Angewandte Chemie International Edition
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creator	Wang, Tongzhou Wang, Qiang Wang, Yucheng Da, Yunli Zhou, Wu Shao, Yue Li, Debao Zhan, Sihui Yuan, Jiayin Wang, Hong
description	Electrochemically functional porous membranes of low cost are appealing in various electrochemical devices used in modern environmental and energy technologies. Herein we describe a scalable strategy to construct electrochemically active, hierarchically porous carbon membranes containing atomically dispersed semi‐metallic Se, denoted SeNCM. The isolated Se atoms were stabilized by carbon atoms in the form of a hexatomic ring structure, in which the Se atoms were located at the edges of graphitic domains in SeNCM. This configuration is different from that of previously reported transition/noble metal single atom catalysts. The positively charged Se, enlarged graphitic layers, robust electrochemical nature of SeNCM endow them with excellent catalytic activity that is superior to state‐of‐the‐art commercial Pt/C catalyst. It also has long‐term operational stability for hydrazine oxidation reaction in practical hydrazine fuel cell. Se cells: A scalable strategy to give a hierarchically structured porous carbon membrane containing atomically dispersed semimetallic selenium atoms has been developed. The membrane functions as a binder‐free, high performance anode for hydrazine oxidation reaction in a practical hydrazine fuel cell.
doi_str_mv	10.1002/anie.201907752
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Herein we describe a scalable strategy to construct electrochemically active, hierarchically porous carbon membranes containing atomically dispersed semi‐metallic Se, denoted SeNCM. The isolated Se atoms were stabilized by carbon atoms in the form of a hexatomic ring structure, in which the Se atoms were located at the edges of graphitic domains in SeNCM. This configuration is different from that of previously reported transition/noble metal single atom catalysts. The positively charged Se, enlarged graphitic layers, robust electrochemical nature of SeNCM endow them with excellent catalytic activity that is superior to state‐of‐the‐art commercial Pt/C catalyst. It also has long‐term operational stability for hydrazine oxidation reaction in practical hydrazine fuel cell. Se cells: A scalable strategy to give a hierarchically structured porous carbon membrane containing atomically dispersed semimetallic selenium atoms has been developed. 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Herein we describe a scalable strategy to construct electrochemically active, hierarchically porous carbon membranes containing atomically dispersed semi‐metallic Se, denoted SeNCM. The isolated Se atoms were stabilized by carbon atoms in the form of a hexatomic ring structure, in which the Se atoms were located at the edges of graphitic domains in SeNCM. This configuration is different from that of previously reported transition/noble metal single atom catalysts. The positively charged Se, enlarged graphitic layers, robust electrochemical nature of SeNCM endow them with excellent catalytic activity that is superior to state‐of‐the‐art commercial Pt/C catalyst. It also has long‐term operational stability for hydrazine oxidation reaction in practical hydrazine fuel cell. Se cells: A scalable strategy to give a hierarchically structured porous carbon membrane containing atomically dispersed semimetallic selenium atoms has been developed. The membrane functions as a binder‐free, high performance anode for hydrazine oxidation reaction in a practical hydrazine fuel cell.</description><subject>atomically dispersed</subject><subject>Carbon</subject><subject>Catalysis</subject><subject>Catalysts</subject><subject>Catalytic activity</subject><subject>Dispersion</subject><subject>Domains</subject><subject>electrocatalysis</subject><subject>Electrochemistry</subject><subject>Energy technology</subject><subject>Fuel cells</subject><subject>Fuel technology</subject><subject>Hydrazine</subject><subject>hydrazine oxidation</subject><subject>Hydrazines</subject><subject>Membranes</subject><subject>Noble metals</subject><subject>Oxidation</subject><subject>porous carbon membranes</subject><subject>Ring structures</subject><subject>Selenium</subject><subject>Single atom catalysts</subject><subject>Spacecraft</subject><issn>1433-7851</issn><issn>1521-3773</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><recordid>eNqFkc1rGzEQxUVoyWevOQZBL72sq5G80u7RuE5iSJNC0_OiXY1AQVo5kpfg_vWVcZpCLj2NZvSbx5MeIZfAZsAY_6pHhzPOoGVK1fyInELNoRJKiQ_lPBeiUk0NJ-Qs56fCNw2Tx-REAJeNBH5KwmIbgxu09zv6zeUNpoyG_sTgAm7L1A2l8Ti6KdA40h8xxSnTpU596b5j6JMekepM9UhXHodtigapjYne7kzSv125vZ7Q0yV6ny_IR6t9xk-v9Zz8ul49Lm-ru4eb9XJxVw2C17wSttZgrdI9DMowY7Sw0qICK7QyhrdzUbeSg8JezoUBq4Vkeg77txvLpTgnXw66mxSfJ8zbLrg8FAfFbPHfcV6DbJViUNDP79CnOKWxuCtUy7lo22YvODtQQ4o5J7TdJrmg064D1u2D6PZBdG9BlIWrV9mpD2je8L8_X4D2ALw4j7v_yHWL-_Xqn_gfpOSUug</recordid><startdate>20190916</startdate><enddate>20190916</enddate><creator>Wang, Tongzhou</creator><creator>Wang, Qiang</creator><creator>Wang, Yucheng</creator><creator>Da, Yunli</creator><creator>Zhou, Wu</creator><creator>Shao, Yue</creator><creator>Li, Debao</creator><creator>Zhan, Sihui</creator><creator>Yuan, Jiayin</creator><creator>Wang, Hong</creator><general>Wiley Subscription Services, Inc</general><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TM</scope><scope>K9.</scope><scope>7X8</scope><orcidid>https://orcid.org/0000-0003-4260-3734</orcidid></search><sort><creationdate>20190916</creationdate><title>Atomically Dispersed Semimetallic Selenium on Porous Carbon Membrane as an Electrode for Hydrazine Fuel Cells</title><author>Wang, Tongzhou ; 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Herein we describe a scalable strategy to construct electrochemically active, hierarchically porous carbon membranes containing atomically dispersed semi‐metallic Se, denoted SeNCM. The isolated Se atoms were stabilized by carbon atoms in the form of a hexatomic ring structure, in which the Se atoms were located at the edges of graphitic domains in SeNCM. This configuration is different from that of previously reported transition/noble metal single atom catalysts. The positively charged Se, enlarged graphitic layers, robust electrochemical nature of SeNCM endow them with excellent catalytic activity that is superior to state‐of‐the‐art commercial Pt/C catalyst. It also has long‐term operational stability for hydrazine oxidation reaction in practical hydrazine fuel cell. Se cells: A scalable strategy to give a hierarchically structured porous carbon membrane containing atomically dispersed semimetallic selenium atoms has been developed. 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subjects	atomically dispersed Carbon Catalysis Catalysts Catalytic activity Dispersion Domains electrocatalysis Electrochemistry Energy technology Fuel cells Fuel technology Hydrazine hydrazine oxidation Hydrazines Membranes Noble metals Oxidation porous carbon membranes Ring structures Selenium Single atom catalysts Spacecraft
title	Atomically Dispersed Semimetallic Selenium on Porous Carbon Membrane as an Electrode for Hydrazine Fuel Cells
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