Charging and Discharging of Membrane for Lithium ion Battery Applications
Ashutosh Barua1, Pankaj Kumar Mishra2, Divya Singh3, Arvind Kumar Jain4

1Ashutosh Barua, Department of Engineering and Technology, Amity University, Maharaj Pura Dang, Gwalior (M.P), India.
2Pankaj Kumar Mishra, Department of Engineering and Technology, Amity University, Maharaj Pura Dang, Gwalior (M.P), India.
3Divya Singh, Department of Engineering and Technology, Amity University, Maharaj Pura Dang, Gwalior (M.P), India.
4Arvind Kumar Jain, Rustamji Institute of Technology, Gwalior (M.P), India.
Manuscript received on 07 April 2019 | Revised Manuscript received on 20 April 2019 | Manuscript published on 30 April 2019 | PP: 1192-1194 | Volume-8 Issue-6, April 2019 | Retrieval Number: F3103048619/19©BEIESP
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Abstract: Poly (methyl methacrylate) (PMMA) exhibits excellent electrical as well as mechanical properties. In the present work, pure and nano Zinc oxide (ZnO) doped PMMA membrane films were prepared using process of solution cast. The Characterization of thin film samples of pure and ZnO doped PMMA having 30µm thickness with similar (Al-Al) electrode combination have been studied, detailed graphical representation as a function of current and voltage is carried out for temperature ranging 30°C to 180°C at 300 and 500V. ZnO doped PMMA foil samples exhibits peak maxima around 95±100C and also confirms decrease in activation energy after incorporation of nano ZnO. The TSDC thermograms and its parameters explain the shift of peak towards the lower temperature side. The formation of charge transfer complex (CTC) reveals the tendency of polymer matrix which indicates the effect of glass transition temperature or activation energy, which results in reduction of discharge rate also led to enhance the stability of Lithium-ion batteries (LIBs). The results were analyzed in detail.
Keyword: PMMA, CTC, Lithium-ion Batteries, Glass Transition Temperature, Activation Energy.
Scope of the Article: Innovative Mobile Applications