Chemical synthesis of cobalt oxide thin film electrode for supercapacitor application

S.G. Kandalkar; D.S. Dhawale; Chang-Koo Kim; C.D. Lokhande

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Chemical synthesis of cobalt oxide thin film electrode for supercapacitor application

机译：用于超级电容器的氧化钴薄膜电极的化学合成

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Cobalt oxide thin film electrode was grown on copper substrate from an aqueous alkaline bath containing cobalt chloride as a cobalt source by adopting simple and inexpensive chemical deposition method and characterized for structural and morphological studies. The supercapacitive properties of cobalt oxide electrode were studied in aqueous KOH electrolyte solution. The effect of electrolyte concentration on specific capacitance and the stability of cobalt oxide electrode were studied. The highest specific capacitance achieved with cobalt oxide films was 118 Fg~(-1). The specific energy (E), specific power (P)and coulomb efficiency (η%) were 5.8 Wh kg~(-1), 0.33 kW kg~(-1) and 93.44%, respectively.

机译：通过采用简单且廉价的化学沉积方法，从含有氯化钴作为钴源的碱性水浴中，在铜基板上生长氧化钴薄膜电极，并对其结构和形态进行了表征。研究了在氢氧化钾水溶液中氧化钴电极的超电容性能。研究了电解液浓度对比电容和氧化钴电极稳定性的影响。用氧化钴膜获得的最高比电容为118 Fg〜（-1）。比能量（E），比功率（P）和库仑效率（η％）分别为5.8Wh·kg·（-1），0.33kW·kg·（-1）和93.44％。

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《Synthetic Metals》 |2010年第12期|共4页
作者
S.G. Kandalkar; D.S. Dhawale; Chang-Koo Kim; C.D. Lokhande;
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正文语种 eng
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Cobalt oxides; Thin films; Chemical synthesis; Energy-storage;

机译：氧化钴;薄膜;化学合成;储能;

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1. Chemical synthesis of cobalt oxide thin film electrode for supercapacitor application [J] . S.G. Kandalkar, D.S. Dhawale, Chang-Koo Kim, Synthetic Metals . 2010,第11a12期

机译：用于超级电容器的氧化钴薄膜电极的化学合成
2. A non-thermal chemical synthesis of hydrophilic and amorphous cobalt oxide films for supercapacitor application [J] . Sunil G. Kandalkar, C.D. Lokhande, R.S. Mane, Applied Surface Science . 2007,第8期

机译：用于超级电容器的亲水性和非晶态氧化钴薄膜的非热化学合成
3. Electrochemical Characterization of Cathodized Copper Oxide Thin Film Electrode for Supercapacitor application [J] . T.S Ghadge, B. J. Lokhande Journal of Nuclear Physics, Material Sciences, Radiation and Applications . 2015,第2期

机译：超级电容器用阴极氧化铜薄膜电极的电化学表征
4. Green Synthesis of Cobalt (II, III) Oxide Nanoparticles using Moringa Oleifera Natural Extract as High Electrochemical Electrode for Supercapacitors [C] . N. Matinise, N. Mayedwa, X.G. Fuku, World Conference of the International Nuclear Target Development Society . 2018

机译：使用Moringa Oleifera天然提取物的钴（II，III）氧化钴纳米粒子的绿色合成作为超级电容器的高电化学电极
5. Microstructure and magnetic properties of cobalt-(cobalt oxide, cobalt nickel dioxide, nickel oxide) and cobalt nickel-cobalt oxide nanocomposite thin films . [D] . Yi, Jae-Young. 2000

机译：钴-（氧化钴，二氧化钴镍，氧化镍）和镍-钴氧化钴纳米复合薄膜的微观结构和磁性。
6. Simultaneous Electrochemical Deposition of Cobalt Complex and Poly(pyrrole) Thin Films for Supercapacitor Electrodes [O] . Charlette M. Parnell, Bijay P. Chhetri, Travis B. Mitchell, -1

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7. SYNTHESIS OF COBALT SULPHIDE THIN FILM ELECTRODE BY MODIFIED CHEMICAL BATH DEPOSITION ROUTE AND ITS SUPERCAPACITORS PERFORMANCE. [O] . M.S. Sonawane, P.K. Baviskar, R.S. Patil 2016

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8. Sputter deposition and characterization of lithium cobalt oxide thin films and their applications in thin-film rechargeable lithium batteries [R] . Wang, B. , Bates, J. B. , Luck, C. F. , 1996

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Chemical synthesis of cobalt oxide thin film electrode for supercapacitor application

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