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聚苯胺纳米颗粒的电沉积为高
聚苯胺纳米颗粒的电沉积作为超级电容器应用的高性能电极Radhika S. Desai 1,Vinayak S. Jadhav 1,Divya D LAD 1,Pramod S. Patil 2,3和Dhanaji S. Dalavi 1,Dhanaji S. Dalavi 1,*抽象导电聚合物的大量关注能量存储材料,以吸引能量存储材料。在这项研究中,我们提出了一种直接且无结合的方法,用于在钢基材上进行聚苯胺(PANI)膜的电沉积。通过优化沉积时间,我们成功合成了Pani纳米颗粒,从而导致了独特的形态和电化学特性。全面的结构和物理化学表征表明,在最佳沉积时间制备的Pani 15薄膜在1 M硫酸(H₂SO₄)电解质中以10 mV s -1的扫描速率显示出632.56 F G -1的显着特异性电容。这项研究展示了一种实用的方法,用于设计和合成高级电极材料,为增强储能应用中的性能铺平了道路。我们的发现强调了电沉积PANI膜作为超级电容器和其他相关技术的有效材料的潜力。
第四个STD MARATHI功绩2023.xlsx
座位号。名称数学int。科学总计全印度排名区域402304161 Girish Dnyandev Hinchnalkar 50 25 100 1st Bhor 402347897 Tanmay Jaykishan Bhutada 50 2599 2nd Selu 402304253 Pradynya Narendra Ambildhok 50 99 3rd Paithan 402349677 Chetan Sharad Popatwar 50 249 3rd Nanded 402347627 Onkar Ramesh Patil 50 23 98 23 98 5th Kolhapur 402345414 RUDRA RAMCHANDRA RAMCHANDRA PIKULKAR 50 Pandurang Kokare 50 2498 6th Ratnagiri 402348049 Yandya Bablu Joshi 50 25 22 97 8th Pune 402304567 Vijay Dhanaji Dhanaji Dhanaji Jambhkar 50 2397 9th Virar 402348509 Veer Dhiraj Jadhav 49 25 23 97 10th Daund 402348693 Prameela Jignesh Kesanandkar 49 2497 11th Kolhapur 402304621 Sakshi Amit Gaikwad 48 24 25 97 12th Shirval 402346517 Rugved Udaysing patil 50 22 96 13th Lanja g -5346953 ARANAV Chaturgun Aawatade 49 2496 14th Mangalwedgha 4023488845 Swarup Dinesh Thorat 49 22 96 15th Karad 402349599 Anandita Anandita Anandta Anand Harne 50 22 95 16 kolhapur 402348774 Anushka Baban Khade 50202 95 16th KAD 402349928 GARGI BALASAHEB SOOL 50 22 22 22 23 95 18th Mandangad 402349576 Samarth Shrikant Patil 49 22 95 195 19th Kolhapur 402345672 Amey Shridhar Khote Shridhar Khote 49 25 2025 2025 20 95 20 205 95 95 95 95 95 95 95 95 95 95 20日402346556 SNEHAL BALU WAGHMARE 48 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 LANJA 402348614 ANUSHKA ALASHKA ALANKAR MADAKE 47 23 25 95 95 22nd Satara 4023488829 Yashraj Bharat Yashraj Bharat 50 Aaradhya Pramod Kadam 502 22 94 24th terwad