Polyaniline Thin Film Prepared by Electrochemical Polymerization Method
Fatiha Saouti, Saïd Belaaouad, Abdelouahed Cherqaoui, Youssef Naimi, S Kamarudin, M Rani, M Mohammad, N Mohammed, M Su'ait, M Ibrahim, H Razali, M Tarawneh, S Saraireh, R Chen, S Ahmad, M Al-Tarawni, M Al-Tweissi, L Yu, S Kamarudin, Z Rahman, M Rani, M Mohammad, N Mohammed, Z Yaakob, N Elhalawany, H Elmelegy, M Nayfeh, S Madaswamy, A Alothman, M Al-Anazy, A Ifseisi, K Alqahtani, S Natarajan, S Angaiah, R Dhanusuraman, A Shawai, A Essa, S Hamham, A Cherqaoui, S Belaaouad, Y Naimi, J Touek, R Rutsch, J Toukov, T Tran, N Kim, Q Le, M Nguyen, H Leu, K Thi, F Saouti, A Charquaoui, Y Naimi, T Wang, H Sun, T Peng, B Liu, Y Hou, B Lei, G Wu, L Li, J Li, B Xu, S Mu, C Chen, J Wang, A Antar, Y Naimi, D Takky, S Jamil, Z Ahmad, M Ali, S Khan, S Ali, M Hammami, M Haroon, M Associate, R Arora, R Prabhu, T Jeevananda, K Reddy, A Raghu, S El Makhloufy, R Oubouaza, A Ouasri, S Belaaouad, G Nascimento, N Pradie, R Oubouaza, M Benson, J Wojciechowski, S Chtita, M Tridane, S Belaaouad, Synthesis, S Zerraf, M Belhabra, M Tridane, S Belaaouad, Y Kadri
Abstract
Polyaniline (PANI) slim film was set up by electrochemical polymerization strategy at room temperature in a standard three-electrode cell from (0.1M) aniline monomer and (0,5M) from Sulfuric acid in the presence of distilled water. The development of PANI film was portrayed by Voltammetric studies, SEM, XRD, and FTIR. Voltammetric studies were performed in 0.5 M acidic aqueous solutions using H2SO4. The XRD design demonstrated that the diffraction top at 2θ = (30˚). The FTIR spectroscopy spectra give particular and unmistakable bonds at 3500, 1572.52, 1302.53, 831.98, and 592.85 cm-1.