Construction of indigenous tin incorporated nickel dichalcogenide nanosheets for high energy all solid-state hybrid supercapacitor

“…Supercapacitors (SC), also known as ''ultracapacitors,'' have gained significant attention due to their higher capacitance values compared to regular capacitors. Various materials have been explored to fabricate supercapacitor electrodes, including conducting polymers, [135][136][137][138] carbon-based materials, [139][140][141][142] transition metal oxides, 143 dichalcogenides, [144][145][146][147] nitrides, 47,148 and carbides. 149 Among these materials, TiN has emerged as one of the most suitable choice for supercapacitor electrodes.…”

Titanium nitride (TiN) as a promising alternative to plasmonic metals: a comprehensive review of synthesis and applications

“…Supercapacitors (SC), also known as ''ultracapacitors,'' have gained significant attention due to their higher capacitance values compared to regular capacitors. Various materials have been explored to fabricate supercapacitor electrodes, including conducting polymers, [135][136][137][138] carbon-based materials, [139][140][141][142] transition metal oxides, 143 dichalcogenides, [144][145][146][147] nitrides, 47,148 and carbides. 149 Among these materials, TiN has emerged as one of the most suitable choice for supercapacitor electrodes.…”

Titanium nitride (TiN) as a promising alternative to plasmonic metals: a comprehensive review of synthesis and applications

“…Reasonable doping is considered to be an important means to improve the performance of storage devices by means including increasing the conductivity and providing more redox active sites [17][18][19]. The specific capacity of Sn-doped NiSSe nanosheets reported by Annamalai et al is increased to 437 mAh g -1 with a remarkable rate retention of 81%.…”

“…The specific capacity of Sn-doped NiSSe nanosheets reported by Annamalai et al is increased to 437 mAh g -1 with a remarkable rate retention of 81%. It is attributed to the tunable Sn doping that changes the electronic configuration, which is beneficial to the enhancement of conductivity, charge transfer, stability, and enrichment of active sites [17]. Hong et al applied Te doping to the S cathode of lithium-sulfur batteries (LSBs), carried out an experimental and theoretical analysis on Te-doped solid-state LiPSs, and studied the effect of Te on the conversion redox kinetics of high-performance LSBs solid-state LiPS.…”

Ultrahigh Electrochemical Performance Co₄Sb_11.2Sn_0.02Te_0.78 for Supercapacitor Cathode

Biomass waste derived from cassia fistula into value-added porous carbon electrode for aqueous symmetric supercapacitors