Nanowrinkled Carbon Aerogels Embedded with FeNx Sites as Effective Oxygen Electrodes for Rechargeable Zinc-Air Battery

Nanowrinkled Carbon Aerogels Embedded with FeNx Sites as Effective Oxygen Electrodes for Rechargeable Zinc-Air Battery

Rational design of single-metal atom sites in carbon substrates by a flexible strategy is highly desired for the preparation of high-performance catalysts for metal-air batteries. In this study, biomass hydrogel reactors are utilized as structural templates to prepare carbon aerogels embedded with s...

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Main Authors: Ting He, Bingzhang Lu, Yang Chen, Yong Wang, Yaqiang Zhang, John L. Davenport, Alan P. Chen, Chih-Wen Pao, Min Liu, Zhifang Sun, Alexander Stram, Alexander Mordaunt, Jairo Velasco, Yuan Ping, Yi Zhang, Shaowei Chen
Format: Article
Language:English
Published: American Association for the Advancement of Science 2019-01-01
Series:Research
Online Access:http://dx.doi.org/10.34133/2019/6813585
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spelling doaj-3c49eddd0fef400dbcf0fc04de578f272020-11-24T23:48:48ZengAmerican Association for the Advancement of ScienceResearch2639-52742019-01-01201910.34133/2019/6813585Nanowrinkled Carbon Aerogels Embedded with FeNx Sites as Effective Oxygen Electrodes for Rechargeable Zinc-Air BatteryTing He0Ting He1Bingzhang Lu2Yang Chen3Yong Wang4Yaqiang Zhang5John L. Davenport6Alan P. Chen7Chih-Wen Pao8Min Liu9Zhifang Sun10Alexander Stram11Alexander Mordaunt12Jairo Velasco13Yuan Ping14Yi Zhang15Yi Zhang16Shaowei Chen17State Key Laboratory for Powder Metallurgy,College of Chemistry and Chemical Engineering,Central South University,Changsha 410083,ChinaDepartment of Chemistry and Biochemistry,University of California,1156 High Street,Santa Cruz, California 95064,USADepartment of Chemistry and Biochemistry,University of California,1156 High Street,Santa Cruz, California 95064,USAState Key Laboratory for Powder Metallurgy,College of Chemistry and Chemical Engineering,Central South University,Changsha 410083,ChinaState Key Laboratory for Powder Metallurgy,College of Chemistry and Chemical Engineering,Central South University,Changsha 410083,ChinaDepartment of Chemical and Materials Engineering,University of Alberta,Edmonton,Alberta,CanadaDepartment of Physics,University of California,1156 High Street,Santa Cruz, California 95064,USADepartment of Physics,University of California,1156 High Street,Santa Cruz, California 95064,USAX-Ray Absorption Group,National Synchrotron Radiation Research Center,Hsinchu 30076,TaiwanInstitute of Super-Microstructure and Ultrafast Process in Advanced Materials,School of Physics and Electronics,Central South University,Changsha 410083,ChinaState Key Laboratory for Powder Metallurgy,College of Chemistry and Chemical Engineering,Central South University,Changsha 410083,ChinaDepartment of Physics,University of California,1156 High Street,Santa Cruz, California 95064,USADepartment of Physics,University of California,1156 High Street,Santa Cruz, California 95064,USADepartment of Physics,University of California,1156 High Street,Santa Cruz, California 95064,USADepartment of Chemistry and Biochemistry,University of California,1156 High Street,Santa Cruz, California 95064,USAState Key Laboratory for Powder Metallurgy,College of Chemistry and Chemical Engineering,Central South University,Changsha 410083,ChinaKey Laboratory of Materials Processing and Mold (Zhengzhou University),Ministry of Education,Zhengzhou 450002,ChinaDepartment of Chemistry and Biochemistry,University of California,1156 High Street,Santa Cruz, California 95064,USARational design of single-metal atom sites in carbon substrates by a flexible strategy is highly desired for the preparation of high-performance catalysts for metal-air batteries. In this study, biomass hydrogel reactors are utilized as structural templates to prepare carbon aerogels embedded with single iron atoms by controlled pyrolysis. The tortuous and interlaced hydrogel chains lead to the formation of abundant nanowrinkles in the porous carbon aerogels, and single iron atoms are dispersed and stabilized within the defective carbon skeletons. X-ray absorption spectroscopy measurements indicate that the iron centers are mostly involved in the coordination structure of FeN4, with a minor fraction (ca. 1/5) in the form of FeN3C. First-principles calculations show that the FeNx sites in the Stone-Wales configurations induced by the nanowrinkles of the hierarchically porous carbon aerogels show a much lower free energy than the normal counterparts. The resulting iron and nitrogen-codoped carbon aerogels exhibit excellent and reversible oxygen electrocatalytic activity, and can be used as bifunctional cathode catalysts in rechargeable Zn-air batteries, with a performance even better than that based on commercial Pt/C and RuO2 catalysts. Results from this study highlight the significance of structural distortions of the metal sites in carbon matrices in the design and engineering of highly active single-atom catalysts.http://dx.doi.org/10.34133/2019/6813585
collection DOAJ
language English
format Article
sources DOAJ
author Ting He
Ting He
Bingzhang Lu
Yang Chen
Yong Wang
Yaqiang Zhang
John L. Davenport
Alan P. Chen
Chih-Wen Pao
Min Liu
Zhifang Sun
Alexander Stram
Alexander Mordaunt
Jairo Velasco
Yuan Ping
Yi Zhang
Yi Zhang
Shaowei Chen
spellingShingle Ting He
Ting He
Bingzhang Lu
Yang Chen
Yong Wang
Yaqiang Zhang
John L. Davenport
Alan P. Chen
Chih-Wen Pao
Min Liu
Zhifang Sun
Alexander Stram
Alexander Mordaunt
Jairo Velasco
Yuan Ping
Yi Zhang
Yi Zhang
Shaowei Chen
Nanowrinkled Carbon Aerogels Embedded with FeNx Sites as Effective Oxygen Electrodes for Rechargeable Zinc-Air Battery
Research
author_facet Ting He
Ting He
Bingzhang Lu
Yang Chen
Yong Wang
Yaqiang Zhang
John L. Davenport
Alan P. Chen
Chih-Wen Pao
Min Liu
Zhifang Sun
Alexander Stram
Alexander Mordaunt
Jairo Velasco
Yuan Ping
Yi Zhang
Yi Zhang
Shaowei Chen
author_sort Ting He
title Nanowrinkled Carbon Aerogels Embedded with FeNx Sites as Effective Oxygen Electrodes for Rechargeable Zinc-Air Battery
title_short Nanowrinkled Carbon Aerogels Embedded with FeNx Sites as Effective Oxygen Electrodes for Rechargeable Zinc-Air Battery
title_full Nanowrinkled Carbon Aerogels Embedded with FeNx Sites as Effective Oxygen Electrodes for Rechargeable Zinc-Air Battery
title_fullStr Nanowrinkled Carbon Aerogels Embedded with FeNx Sites as Effective Oxygen Electrodes for Rechargeable Zinc-Air Battery
title_full_unstemmed Nanowrinkled Carbon Aerogels Embedded with FeNx Sites as Effective Oxygen Electrodes for Rechargeable Zinc-Air Battery
title_sort nanowrinkled carbon aerogels embedded with fenx sites as effective oxygen electrodes for rechargeable zinc-air battery
publisher American Association for the Advancement of Science
series Research
issn 2639-5274
publishDate 2019-01-01
description Rational design of single-metal atom sites in carbon substrates by a flexible strategy is highly desired for the preparation of high-performance catalysts for metal-air batteries. In this study, biomass hydrogel reactors are utilized as structural templates to prepare carbon aerogels embedded with single iron atoms by controlled pyrolysis. The tortuous and interlaced hydrogel chains lead to the formation of abundant nanowrinkles in the porous carbon aerogels, and single iron atoms are dispersed and stabilized within the defective carbon skeletons. X-ray absorption spectroscopy measurements indicate that the iron centers are mostly involved in the coordination structure of FeN4, with a minor fraction (ca. 1/5) in the form of FeN3C. First-principles calculations show that the FeNx sites in the Stone-Wales configurations induced by the nanowrinkles of the hierarchically porous carbon aerogels show a much lower free energy than the normal counterparts. The resulting iron and nitrogen-codoped carbon aerogels exhibit excellent and reversible oxygen electrocatalytic activity, and can be used as bifunctional cathode catalysts in rechargeable Zn-air batteries, with a performance even better than that based on commercial Pt/C and RuO2 catalysts. Results from this study highlight the significance of structural distortions of the metal sites in carbon matrices in the design and engineering of highly active single-atom catalysts.
url http://dx.doi.org/10.34133/2019/6813585
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