Abstract:
Nickel based composite plays an tremendous role in energy storage application in which
include batteries and supercapacitors. Nickel hydroxide electrodes are used in alkine
batteries as Ni-Cd, Ni-MH and Ni-Zn. Composites like Nickel oxide (NiO) along with C&S
increase long cycle life in batteries, Nickel hydroxide and reduce graphene oxide
Ni(OH)2/ rGO reveal high electrical conductivity. Naturally nickel has rigid structure and
it is onerous to make it flexible, keep in mind for making as flexible material its
conductive property should not be effected, for this Nicl2 on a nickel foam substrate
gave better performance for electric conductivity in thermal storage batteries. In
Present work Lignocelluloses (LC) are introduced as a flexible substrate because it alters
flexibility, cost efficient, rigidity and appear abundance in nature.
Presented study show the flexibility of NiS and incorporation of lignocellulose fibers for
development of nickel sulphide base paper electrodes. Hydrothermal method is
employed to fabricate the nickel sulphide nanoparticles. Different characterization tools
are applied for the existence of prepared sample like SEM its confirm the particle size,
shape and surface morphology, XRD provide evidence that the sample is nickel
sulphide(NiS) and electrochemical measurement gave information of specific
capacitance and charge discharge values.