Ternary FeO/reduced graphene oxide/phytic acid doped polyaniline hybrid based supercapacitive electrode with high capacitance retention and good cycling stability

Pseudocapacitive electrodes with high rate retention and good cycling stability are highly desirable in constructing high-performance supercapacitors due to their rapid charge/discharge capacity and long service life, but they are still a challenge to realize. Herein, a ternary Fe 3 O 4 /reduced gra...

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Published in	New journal of chemistry Vol. 47; no. 19; pp. 9143 - 9152
Main Authors	Zhao, Yaxiong, Zhou, Ming, Ni, Ruifeng, Li, Yi, Huang, Jiangyu, Li, Zhenyu, Chen, Jingyu
Format	Journal Article
Published	16.05.2023
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Abstract	Pseudocapacitive electrodes with high rate retention and good cycling stability are highly desirable in constructing high-performance supercapacitors due to their rapid charge/discharge capacity and long service life, but they are still a challenge to realize. Herein, a ternary Fe 3 O 4 /reduced graphene oxide/phytic acid (PA)-doped polyaniline (F-RGO-p-PANI) hybrid has been prepared to address this challenge. Prompted by the multiple synergistic effects among RGO, Fe 3 O 4 , PA, and PANI, our F-RGO-p-PANI material exhibits a high specific capacitance ( C s ) of 459.1 F g −1 with a current density of 0.5 A g −1 . Interestingly, our supercapacitor displays both high capacitance retention (∼83.5%) under a broad current density range (from 0.25 to 20 A g −1 ) and high cycling stability (∼80.8%) over 10 000 cycles under a high current density (20 A g −1 ), better than previous results. Moreover, our supercapacitor also shows a high specific energy density of 58.1 W h kg −1 with a power density of 0.5 kW kg −1 . These results imply that our ternary F-RGO-p-PANI holds tremendous potential in fabricating rapidly charged/discharged supercapacitors. Herein, a ternary Fe 3 O 4 /reduced graphene oxide/phytic acid (PA)-doped polyaniline (F-RGO-p-PANI) hybrid has been prepared and exhibits a high specific capacitance of 459.1 F g −1 .
AbstractList	Pseudocapacitive electrodes with high rate retention and good cycling stability are highly desirable in constructing high-performance supercapacitors due to their rapid charge/discharge capacity and long service life, but they are still a challenge to realize. Herein, a ternary Fe 3 O 4 /reduced graphene oxide/phytic acid (PA)-doped polyaniline (F-RGO-p-PANI) hybrid has been prepared to address this challenge. Prompted by the multiple synergistic effects among RGO, Fe 3 O 4 , PA, and PANI, our F-RGO-p-PANI material exhibits a high specific capacitance ( C s ) of 459.1 F g −1 with a current density of 0.5 A g −1 . Interestingly, our supercapacitor displays both high capacitance retention (∼83.5%) under a broad current density range (from 0.25 to 20 A g −1 ) and high cycling stability (∼80.8%) over 10 000 cycles under a high current density (20 A g −1 ), better than previous results. Moreover, our supercapacitor also shows a high specific energy density of 58.1 W h kg −1 with a power density of 0.5 kW kg −1 . These results imply that our ternary F-RGO-p-PANI holds tremendous potential in fabricating rapidly charged/discharged supercapacitors. Herein, a ternary Fe 3 O 4 /reduced graphene oxide/phytic acid (PA)-doped polyaniline (F-RGO-p-PANI) hybrid has been prepared and exhibits a high specific capacitance of 459.1 F g −1 .
Author	Li, Zhenyu Chen, Jingyu Huang, Jiangyu Zhou, Ming Ni, Ruifeng Li, Yi Zhao, Yaxiong
AuthorAffiliation	Research Center of Energy Polymer Materials Chengdu Evermaterials Co., Ltd School of New Energy and Materials Southwest Petroleum University State Key Laboratory of Oil and Gas Reservoir Geology and Development Engineering
AuthorAffiliation_xml	– name: School of New Energy and Materials – name: Research Center of Energy Polymer Materials – name: Southwest Petroleum University – name: State Key Laboratory of Oil and Gas Reservoir Geology and Development Engineering – name: Chengdu Evermaterials Co., Ltd
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