PSEUDOCAPACITANCE

作品数:65被引量:174H指数:8
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相关领域:电气工程理学更多>>
相关机构:南昌大学更多>>
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Fast charge transport motivated by tunable Mo2C/Mo2N high-quality heterointerface for superior pseudocapacitive storage
《Journal of Energy Chemistry》2023年第8期465-477,I0012,共14页Yanjun Gao Shaohua Zhang Lingrui Xu Xiangyang Li Lijie Li Lixia Bao Jiong Peng Xin Li 
supported by the Beijing Natural Science Founding (2202050);the Beijing Institute of Technology scientific cooperation project (BITBLR2020010);the National Nature Science Foundation of China (21111120074);the National Nature Science Foundation of China (20806008)。
The development of potential transition-metal carbide/nitride heterojunctions is hindered by overall understanding and precise modulation for heterointerface effects.Herein,we demonstrate that Mo_(2)C/Mo_(2)N heteroju...
关键词:Energy storage Hybrid supercapacitors PSEUDOCAPACITANCE HETEROJUNCTION High-quality interface 
Improving the electrochemical performance of α-MoO_(3) electrode using aluminium trifluoromethanesulfonate water-in-salt electrolyte
《Journal of Energy Chemistry》2023年第3期123-134,I0004,共13页Ayman E.Elkholy Timothy T.Duignan Ruth Knibbe Xiu Song Zhao 
supported by the Australian Research Council under the ARC Laureate Fellowship program(FL170100101)。
Orthorhombic molybdenum trioxide(α-MoO_(3)) electrode material experiences severe capacity fading and poor cycling stability in aqueous electrolytes.We investigated the charge-storage performance of α-MoO_(3) electr...
关键词:Molybdenum oxide Aqueous electrolyte Water-in-salt electrolyte Aqueous batteries PSEUDOCAPACITANCE 
A universal design for triggering the precise micro-structure reconstruction through in-situ electro-regulating to boost the pseudocapacitance of MnO_(2)
《Journal of Energy Chemistry》2022年第11期184-197,I0006,共15页Lijin Yan Jiangyu Hao Baibai Liu Xuefeng Zou Qibin Wu Jin Hou Jizhou Duan Shicheng Wei Yang Zhou Bin Xiang Baorong Hou 
supported by the Opening Project of State Key Laboratory of Advanced Chemical Power Sources;Guizhou Provincial Science and Technology Projects (QKHJC-ZK[2021]YB057);the Growth Project of Young Scientific and Technological Talents in Colleges and Universities of Guizhou Province (QKHJCKYZ[2021]252);the Reward and Subsidy Fund Project of Guizhou Education University (Z20210108);the Doctoral Program of Guizhou Education University (2019BS022)
Developing a precise controllable strategy for modulating the micro-morphology,atom coordination environment,and electronic structure of electrode materials is crucial for the performance in the field of energy storag...
关键词:Electro-regulating Microstructure reconstructed MnO_(2) Corrosion resistance Supercapacitors 
Correlation between self-discharge behavior and heteroatoms over doped carbon sheets for enhanced pseudocapacitance被引量:2
《Journal of Energy Chemistry》2022年第9期291-298,I0008,共9页Kunlun Liu Chang Yu Yuanyang Xie Wei Guo Jinhe Yu Lin Ni Zhao Wang Rong Fu Jieshan Qiu 
partly supported by the National Natural Science Foundation of China(51872035,22078052);the Innovation Program of Dalian City of Liaoning Province(2019RJ03);the Shandong Provincial Natural Science Foundation(ZR2020ZD08)。
For electric double layer supercapacitors,carbon materials originating from the purely physical energystorage mechanism limit the improvement in the capabilities of charge storage.To solve this problem,doping heteroat...
关键词:Supercapacitor Heteroatom-doped carbon SELF-DISCHARGE Capacitance 
Corrigendum to“Cation-vacancy induced Li+intercalation pseudocapacitance at atomically thin heterointerface for high capacity and high power lithium-ion batteries”[J.Energy Chem.62(2021)281–288]
《Journal of Energy Chemistry》2022年第8期655-656,共2页Ding Yuan David Adekoya Yuhai Dou Yuhui Tian Hao Chen Zhenzhen Wu Jiadong Qin Linping Yu Jian Zhang Xianhu Liu Shi Xue Dou Shanqing Zhang 
The authors regret that the wrong image of Fig.1 was uploaded in the paper.The correct one should be:We confirm the discrepancy is restricted to the image of Fig.1 only,the underlying data is correct and unchanged.The...
关键词:lithium capacitance unchanged 
High-energy sodium-ion hybrid capacitors through nanograin-boundary-induced pseudocapacitance of Co_(3)O_(4) nanorods被引量:1
《Journal of Energy Chemistry》2022年第6期338-346,I0009,共10页Wenliang Feng Venkata Sai Avvaru Steven JHinder Vinodkumar Etacheri 
financially supported by the IMDEA Materials Institute STRUBAT Project, Spanish Ministry of Economy, Industry, and Competitiveness (MINECO), the Spanish Ministry of Science and Innovation, and Comunidad de Madrid for Juan de la Cierva fellowship (IJCI-2015-25488);the Retos Investigacion Project (MAT2017-84002-C2-2-R)/Ramon y Cajal fellowship (RYC-2018-025893-I);the Talent attraction fellowship (2016-T1/IND-1300);the China Scholarship Council (201706740087)。
Sodium-ion hybrid capacitors (SICs) have been proposed to bridge performance gaps between batteries and supercapacitors,and thus realize both high energy density and power density in a single configuration.Nevertheles...
关键词:Sodium-ion hybrid capacitor Cobalt oxide nanorod Nanograin-boundary PSEUDOCAPACITANCE 
Tailored amorphous titanium oxide and carbon composites for enhanced pseudocapacitive sodium storage
《Journal of Energy Chemistry》2022年第2期127-132,共6页Meng Shao Chengcheng Sun Tianming Chen Ningxiang Wu Runan Zhang Xu Han Yu Shen Peng Wu Wei-Wei Xiong Weina Zhang Sheng Li Fengwei Huo 
supported by the National Key R&D Program of China(Grant No.2017YFA0207202);Postgraduate Research&Practice Innovation Program of Jiangsu Province(KYCX20_1058)。
As an effective and competitive supplement to the commercialized lithium ion batteries(LIBs),sodium ion batteries(SIBs)have been receiving increasing attention in recent years due to lower cost,richer content,and broa...
关键词:Unsaturated sites AMORPHOUS Fast ion storage Na^(+)storage mechanism PSEUDOCAPACITANCE 
Cation-vacancy induced Li+ intercalation pseudocapacitance at atomically thin heterointerface for high capacity and high power lithium-ion batteries被引量:2
《Journal of Energy Chemistry》2021年第11期281-288,I0006,共9页Ding Yuan David Adekoya Yuhai Dou Yuhui Tian Hao Chen Zhenzhen Wu Jiadong Qin Linping Yu Jian Zhang Xianhu Liu Shi Xue Dou Shanqing Zhang 
This work was financially supported by the Australian Research Council(ARC)Discovery Projects(DP210103266,DP200100965 and DP200100365);the ARC Discovery Early Career Researcher Award(DE210101102);the Griffith University Postdoctoral Fellowship Scheme(YUDOU 036 Research Internal).
It is challenging to create cation vacancies in electrode materials for enhancing the performance of rechargeable lithium ion batteries (LIBs). Herein, we utilized a strong alkaline etching method to successfully crea...
关键词:Cation vacancy Atomically thin Interface PSEUDOCAPACITANCE Lithium-ion batteries 
Tuning electronic structure ofδ-MnO_(2) by the alkali-ion(K,Na,Li)associated manganese vacancies for high-rate supercapacitors被引量:2
《Journal of Energy Chemistry》2021年第5期245-258,共14页Lengyuan Niu Lijin Yan Zhengwei Lu Yinyan Gong Taiqiang Chen Can Li Xinjuan Liu Shiqing Xu 
supported by Zhejiang Provincial Natural Science Foundation of China under Grant No.LQ18E030005,LY18E060005,LY19E020006,LY18E020007;National Natural Science Foundation of China(No.51902301)。
Cation vacancies can bring numerous surprising characters due to its multifarious electron and orbit distribution.In this work,d-MnO_(2) with alkali-ion(K,Na,Li)associated manganese(Mn)vacancies is fabricated by a sim...
关键词:SUPERCAPACITOR Manganese oxide Manganese vacancies PSEUDOCAPACITANCE 
Intercalation-pseudocapacitance hybrid anode for high rate and energy lithium-ion capacitors被引量:2
《Journal of Energy Chemistry》2021年第4期459-467,共9页Chang Liu Ali Khosrozadeh Qing-Qing Ren Ling-Hui Yan Kokswee Goh Shi-Han Li Jian Liu Lei Zhao Da-Ming Gu Zhen-Bo Wang 
the National Natural Science Foundation of China(Grant Nos.21673064 and 51902072);the China postdoctoral science foundation(Grant Nos.2017M621285 and 2018T110292);the Fundamental Research Funds for the Central Universities(Grant Nos.HIT.NSRIF.2019040 and 2019041);the State Key Laboratory of Urban Water Resource and Environment(Harbin Institute of Technology)(No.2020DX11)。
Existing rechargeable batteries not only fail to meet the demand for high power applications but also cause heavy metal pollution.Li-ion capacitors(LICs),which can achieve higher charging speeds and energy densities t...
关键词:Manganese vanadate Graphene Pseudocapacity Hempstem-based activated carbons Lithium ion capacitor 
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