Characterization of porous cobalt hexacyanoferrate and activated carbon electrodes under dynamic polarization conditions in a sodium-ion pseudocapacitor

Bruno Morandi Pires; Willian Goncalves Nunes; Bruno Guilherme Freitas; Francisca Elenice Rodrigues Oliveira; Vera Katic; Cristiane Barbieri Rodella; Leonardo Morais Da Silva; Hudson Zanin

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Characterization of porous cobalt hexacyanoferrate and activated carbon electrodes under dynamic polarization conditions in a sodium-ion pseudocapacitor

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We report here the activated carbon and cobalt hexacyanoferrate composite,which is applied as the electrode materials in symmetric supercapacitors containing a 1.0 M Na_(2)SO_(4) aqueous electrolyte.This novel material combines high specific surface area and electrochemical stability of activated carbon with the redox properties of cobalt hexacyanoferrate,resulting in maximum specific capacitance of 329 F g^(-1) with large voltage working window of 2.0 V.Electrochemical studies indicated that cobalt hexacyanoferrate introduces important pseudocapacitive properties accounting for the overall charge-storage process,especially when I<0.5 A g^(-1).At lower gravimetric currents(e.g.,0.05 A g^(-1))and up to 1.0 V,the presence of cobalt hexacyanoferrate improves the specific energy for more than 300%.In addition,to better understanding the energy storage process we also provided a careful investigation of the electrode materials under dynamic polarization conditions using the in situ Raman spectroscopy and synchrotron light Xray diffraction techniques.Interesting complementary findings were obtained in these studies.We believe that this novel electrode material is promising for applications regarding the energy-storage process in pseudocapacitors with long lifespan properties.

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《能源化学：英文版》 |2021年第3期|P.53-62|共10页
作者
Bruno Morandi Pires; Willian Goncalves Nunes; Bruno Guilherme Freitas; Francisca Elenice Rodrigues Oliveira; Vera Katic; Cristiane Barbieri Rodella; Leonardo Morais Da Silva; Hudson Zanin;
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作者单位

Advanced Energy Storage Division Manufacturing Croup Carbon Sci-Tech Labs Center for Innovation on New Energies University of Campinas Campinas 13083-852 SP Brazil;

Advanced Energy Storage Division Manufacturing Croup Carbon Sci-Tech Labs Center for Innovation on New Energies University of Campinas Campinas 13083-852 SP Brazil;

Advanced Energy Storage Division Manufacturing Croup Carbon Sci-Tech Labs Center for Innovation on New Energies University of Campinas Campinas 13083-852 SP Brazil;

Advanced Energy Storage Division Manufacturing Croup Carbon Sci-Tech Labs Center for Innovation on New Energies University of Campinas Campinas 13083-852 SP Brazil;

Advanced Energy Storage Division Manufacturing Croup Carbon Sci-Tech Labs Center for Innovation on New Energies University of Campinas Campinas 13083-852 SP Brazil;

Brazilian Synchrotron Light Laboratory(LNLS/Brazilian Center of Energy and Materiab(CNPEM)) Campinas 13083-970 SP Brazil;

Department of Chemistry Laboratory of Fundamental and Applied Electrochemistry Federal University of Jequitinhonha and Mucuri''s Vatley Alto dajacuba 39100-000 Diamantina-MG Brazil;

Advanced Energy Storage Division Manufacturing Croup Carbon Sci-Tech Labs Center for Innovation on New Energies University of Campinas Campinas 13083-852 SP Brazil;

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正文语种 chi
中图分类物理化学（理论化学）、化学物理学;
关键词
Operando studies; Raman; XRD synchrotron light; Cobalt hexacyanoferrate; Activated carbon; High specific capacitance;

机译：Operando研究;拉曼;XRD同步rotron光;钴六氰基甲醛;活性炭;高比电容;

Characterization of porous cobalt hexacyanoferrate and activated carbon electrodes under dynamic polarization conditions in a sodium-ion pseudocapacitor

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