Priyanka G. Patil, Krushna J. Langade, Sanjay K. Vyawahare
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引用次数: 0
摘要
有机-无机纳米复合材料的优异性能引起了储能领域的广泛关注。在这方面,利用化学氧化技术合成了用于超级电容器的聚苯胺-氧化镍(PANI-NiO)。利用x射线衍射(XRD)、紫外-可见(UV-Vis)、傅里叶变换红外(FTIR)光谱和场效应透射(FESEM)技术分别对PANI和PANI- nio电极材料的结构、光学和形态特性进行了阐述。通过循环伏安法(CV)、恒流充放电法(GCD)和电化学阻抗谱法(EIS)研究了所制备材料的电化学性能。在电流密度为1 a /g时,PANI和PANI- nio的比电容值分别为223.92和522.45 F/g。稳定性研究表明,经过3000次GCD循环,PANI- nio电极的电容保持率为79.5%,PANI电极的电容保持率为62.2%。因此,与聚苯胺相比,得到的电化学测试结果证实了聚苯胺在超级电容器应用中的令人兴奋的潜力。图形抽象
Synthesis and characterisation of PANI and PANI-NiO nanocomposite for promising supercapacitor application
The excellent properties of organic–inorganic nanocomposites garnered extensive attention in energy storage applications. In this regard, polyaniline-nickel oxide (PANI-NiO) has been synthesised using a chemical oxidation technique for supercapacitor applications. The structural, optical, and morphological properties of the PANI and PANI-NiO electrode materials were elaborated using X-ray diffraction (XRD), ultraviolet–visible (UV–Vis.), Fourier transform infrared (FTIR) spectroscopy, and field effect transmission (FESEM) techniques respectively. The electrochemical properties of the developed materials were explored via cyclic voltammetry (CV), galvanostatic charge–discharge (GCD), and electrochemical impedance spectroscopy (EIS) techniques. The PANI and PANI-NiO exhibited the specific capacitance values of 223.92 and 522.45 F/g respectively, at a current density of 1 A/g. The stability study of the electrodes shows a high capacitance retention of 79.5% after 3000 GCD cycles for the PANI-NiO electrode and 62.2% for the PANI electrode. Thus, the obtained results of the electrochemical test confirmed the exciting potential of the PANI-NiO compared to PANI in supercapacitor applications.
期刊介绍:
Ionics is publishing original results in the fields of science and technology of ionic motion. This includes theoretical, experimental and practical work on electrolytes, electrode, ionic/electronic interfaces, ionic transport aspects of corrosion, galvanic cells, e.g. for thermodynamic and kinetic studies, batteries, fuel cells, sensors and electrochromics. Fast solid ionic conductors are presently providing new opportunities in view of several advantages, in addition to conventional liquid electrolytes.
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