A non-thermal chemical synthesis of hydrophilic and amorphous cobalt oxide films for supercapacitor application

Sunil G. Kandalkar; C.D. Lokhande; R.S. Mane; Sung-Hwan Han

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A non-thermal chemical synthesis of hydrophilic and amorphous cobalt oxide films for supercapacitor application

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

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Present work explored a room temperature, simple and low cost chemical route for the preparation of hydrophilic cobalt oxide films from alkaline cobalt chloride (CoCl_2:6H_2O) and double distilled water precursor solutions. As-deposited cobalt oxide films showed amorphous nature, which is one of the prime requirements for supercapacitor, as confirmed from X-ray diffraction studies. Changes in direct band gap energy and electrical resistivity of as-deposited cobalt oxide films were confirmed after annealing. Spherical grains of about 40-50 nm diameters were uniformly distributed over the substrate surface. Surface wettability studied in contact with liquid interface, showed hydrophilic nature as water contact angle was < 90°. Finally, presence of cobalt-oxygen covalent bond was observed from Raman shift experiment.

机译：目前的工作探索了一种室温，简单且低成本的化学路线，该路线用于从碱性氯化钴（CoCl_2：6H_2O）和双蒸馏水前体溶液制备亲水性氧化钴膜。 X射线衍射研究证实，刚沉积的氧化钴膜显示出非晶态，这是超级电容器的主要要求之一。退火后，证实了沉积的氧化钴膜的直接带隙能和电阻率的变化。直径约40-50 nm的球形晶粒均匀地分布在基板表面上。与液体界面接触的表面润湿性研究表明，当水接触角小于90°时，具有亲水性。最后，从拉曼位移实验中观察到钴-氧共价键的存在。

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来源
《Applied Surface Science 》 |2007年第8期| p.3952-3956| 共5页
作者
Sunil G. Kandalkar; C.D. Lokhande; R.S. Mane; Sung-Hwan Han;
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作者单位

Thin Film Physics Laboratory, Department of Physics, Shivaji University, Kolhapur 416 004, India;

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原文格式 PDF
正文语种 eng
中图分类应用物理学 ;
关键词
cobalt oxide; non-thermal process; raman shift; electrical resistivity;

机译：氧化钴;非热过程;拉曼位移;电阻率;

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A non-thermal chemical synthesis of hydrophilic and amorphous cobalt oxide films for supercapacitor application

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