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    Please use this identifier to cite or link to this item: https://ir.lib.ncu.edu.tw/handle/987654321/100192


    Title: Porous CuO nanowires as the anode of rechargeable Na-ion batteries
    Authors: 鄭芳怡;Wang, Lijiang;Zhang, Kai;Hu, Zhe;Duan, Wenchao;Cheng, Fangyi;Chen, Jun
    Contributors: 地球科學學院大氣科學學系
    Keywords: ANODES;Atomic/Molecular Structure and Spectra;BATTERIES;Biomedicine;Biotechnology;Charge;Chemistry and Materials Science;Condensed Matter Physics;Copper;COPPER OXIDE;CUPRIC OXIDE;CUPROUS OXIDE;Decomposition;Discharge;Electric batteries;Electrochemistry;Electrolytes;Electrons;Materials Science;MICROSTRUCTURES;MICROWIRE;Nanoparticles;Nanostructure;Nanotechnology;Nanowires;PARTICLES;POROSITY;Research Article;Sodium;Transmission electron microscopy;Voltammetry;Work stations;X-ray diffraction;可充电;多孔;氧化铜;纳米线;透射电子显微镜;钠离子电池;阳极
    Date: 2014-01-01
    Issue Date: 2026-04-21 13:52:59 (UTC+8)
    Publisher: Tsinghua University Press;Heidelberg: Tsinghua University Press
    Abstract: 摘要: We report the preparation of porous CuO nanowires that are composed of nanoparticles (-50 nm) via a simple decomposition of a Cu(OH)2 precursor and their application as the anode materials of rechargeable Na-ion batteries. The as-prepared porous CuO nanowires exhibit a Brunauer-Emmett-Teller (BET) surface area of 13.05 m^2.g^-1, which is six times larger than that of bulk CuO (2.16 m^2.g^-1). The anode of porous CuO nanowires showed discharge capacities of 640 mA.h.g^-1 in the first cycle and 303 mA.h.g^-1 after 50 cycles at 50 mA.g^-1 The high capacity is attributed to porous nanostructure which facilitates fast Na-intercalation kinetics. The mechanism of electrochemical Na-storage based on conversion reactions has been studied through cyclic voltammetry, X-ray diffraction (XRD), Raman spectroscopy, and high resolution transmission electron microscopy (HRTEM). It is demonstrated that in the discharge process, Na+ions first insert into CuO to form a CuⅡ1-x CuⅠ x O1-x/2solid and a Na2O matrix then CuⅡ1-xCu Ⅰ xO1-x/2 reacts with Na+ to produce Cu2O, and finally Cu2O decompose into Cu nanoparticles enclosed in a Na2O matrix. During the charge process, Cu nanopartides are first oxidized to generate Cu2O and then converted back to CuO. This result contributes to the design and mechanistic analysis of high-performance anodes for rechargeable Na-ion batteries.
    其他題名: Nano Res
    其他題名: Nano Research
    出版者: Heidelberg: Tsinghua University Press
    出版日期: 2014-02-01
    出處: Nano Research, 2014-02, Vol.7 (2), p.199-208
    版權: Tsinghua University Press and Springer-Verlag Berlin Heidelberg 2014
    識別號: ISSN: 1998-0124
    識別號: EISSN: 1998-0000
    識別號: DOI: 10.1007/s12274-013-0387-6
    Appears in Collections:[Department of Atmospheric Sciences] journal & Dissertation

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