Nanocomposite Material Sb₂S₃:SnS:MnS₂ its Fabrication and Utilization as Efficient Electrode for Energy Storage in Supercapacitor

ChemistrySelect, Journal Year: 2024, Volume and Issue: 9(42)

Published: Nov. 1, 2024

Abstract The nanocomposite material Sb 2 S 3 : SnS:MnS was fabricated by single precursor technique using dithio‐carbamate ligand as :SnS:MnS (DDTC) complex. An internal and external look at the anatomy activity of substance obtained a variety analytical techniques like XRD, FTIR, UV‐Vis SEM. Additionally, various electro‐analytical tools LSV, CV, GCD EIS were applied to confirm material's rich electro‐active capability for photoactive electrode. XRD revealed its average crystallite size 12.33 nm with 82.8 % crystallinity. Optical characteristics represented describe effective semiconducting nature nanomaterials optimum band gap 2.65 eV. By electrochemical processes, LSV CV demonstrated fertile opto‐electrical SnS: MnS specific capacitance, Csp, 1080 F/g scan rate mV/s. With high power density 2656 W/kg, attempted validate an electrode good charge‐discharge mechanism. In EIS, low series resistance, Rs=0.73 Ω, observed be very beneficial argument in validating synthesized this research project low‐cost which can different energy producing storing devices solar system super‐capacitors etc.

Language: Английский

Developing sustainable chalcogenide for energy storage: Investigating the semiconducting MnS2: CuS: CoS2: Ni2S3 quaternary complexes as supercapacitor electrode material

Microchemical Journal, Journal Year: 2024, Volume and Issue: unknown, P. 112218 - 112218

Published: Nov. 1, 2024

Language: Английский