Binder-Free NiS@PPy Nanocomposite Cathode for High-Performance Supercapacitors

Industrialization and the increase in the world population increase the need for energy.Supercapacitors are preferred because of their features such as high specific power, long life, environmentalfriendliness, fast charge, and discharge rates. Supercapacitors are divided into two categories as EDLC andpseudo capacitors. Pseudo capacitors use materials that exhibit pseudo capacitance, such as transition metaloxides/sulphides and conductive polymers. Electrochemical studies and synthesis methods of polymerbased metal oxide composites, polyaniline and polypyrrole are examined in detail. Evaluating the variousmethods used in the preparation of supercapacitor electrodes, an idea is presented on the selection ofsuitable materials for electrochemical applications. Conductive polymers have good capacitance behaviorbut low cyclic stability. Transition metal sulfides exhibit electrochemical performance with highcapacitance values and excellent redox reversibility. This study investigates NiS/PPy polymer assupercapacitor electrode material. The NiS structure was synthesized using Na2S and nickel foam. NiS-PPycoating was carried out by electrochemical coating method. Structures were characterized by XRD andSEM, electrochemical studies such as cyclic voltammetry (CV), galvanostatic discharge (GCD) werecarried out. By incorporating NiS into the PPy matrix, the C value was increased from 22.22 to 1404 F g-1