Energy storehouse and a remarkable photocatalyst: Al2S3/Cu2S/Ni17S18 thin film as supercapacitor electrode and pollutants degradation

Gul, Mahwash Mahar; Ahmad, Khuram Shahzad

doi:10.1080/02670844.2023.2223453

Surface Engineering

2023

DOI: 10.1080/02670844.2023.2223453

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Energy storehouse and a remarkable photocatalyst: Al₂S₃/Cu₂S/Ni₁₇S₁₈ thin film as supercapacitor electrode and pollutants degradation

Mahwash Mahar Gul

Khuram Shahzad Ahmad

Abstract: Fabrication of the tri metal sulphide Al 2 S 3 -Cu 2 S-Ni 17 S 18 thin film was achieved by physical vapour deposition. The synthesised material was fully characterised by XRD, SEM, EDX, UV-visible spectrophotometer and FTIR. A nanoscale ranged 23.5 nm average crystallite size was obtained for the ternary metal sulphide. A motley of clustered morphological particles was observed by SEM with the confirmation of the desired metals through energy dispersive X-ray. Band gap energy possessed by the ternary metal su… Show more

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Cited by 6 publications

References 60 publications

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Advancing energy and water solutions: Unleashing the potential of Nd₂S₃:Ni₉S₈ thin film for supercapacitors and sustainable water purification

Gul,

Ahmad,

Thomas

et al. 2023

Asia-Pacific J Chem Eng

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The research was done on the creation and use of bi‐metal sulfide thin film, Nd2S3:Ni9S8. 41 nm‐sized crystallites with 80% crystallinity were found in the material. The evaluated optical characteristics showed a 2.9 eV band gap energy. The presence of Nd3d, S2p, and Ni2p in the created material was confirmed by X‐ray photoelectron spectroscopy. Voltammetry tests were carried out to assess the electrochemical characteristics. With a value of 750 Fg−1, the findings obtained showed remarkable supercapacitive capability. Additionally, a thorough examination was done to learn more about the material's potential as a photocatalyst. Malachite green dye, fuberidazole, and phenol were used as environmental contaminants to test the thin films' photocatalytic degradation effectiveness. The highest degradation was found for fuberidazole with a rate constant of 2.46x10−2 min−1. The results demonstrated the versatility of thin films and their efficacy in degrading these pollutants, highlighting their potential for environmental remediation applications.

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Advancing energy and water solutions: Unleashing the potential of Nd₂S₃:Ni₉S₈ thin film for supercapacitors and sustainable water purification

Gul,

Ahmad,

Thomas

et al. 2023

Asia-Pacific J Chem Eng

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BaS₃:Sb₂S₃:GdS₂ Longitudinal Rods: Single‐Source Precursor Synthesis, Characterization, and Electrochemical Applications for Supercapacitance and Catalysis

Ahmad,

Jaffri,

Al‐Hawadi

et al. 2024

ChemistrySelect

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This study investigates a unique and energy‐efficient BaS3:Sb2S3:GdS2 nanocomposite chalcogenide system that was made using a single source dithiocarbamate precursor route. The produced dithiocarbamate metallic sulfide has an average crystallite size of 17.38 nm and a small band gap of 3.76 eV. An examination of functional groups revealed the existence of several linkages, including the metal sulfide bond. Morphologically, BaS3:Sb2S3:GdS2 appeared as elongated rods showing greater surface area for electrochemical activity. By constructing a nickel foam electrode and covering it with a slurry of BaS3:Sb2S3:GdS2, the electrochemical charge‐storing behavior of BaS3:Sb2S3:GdS2 was assessed. Prepared electrode exhibited auspicious electrical charge storage capacities with a specific capacitance reaching upto 633.32 F g−1. These findings suggest that there is a significant amount of potential for energy storage in the electrode. This electrode also exhibited a reduced series resistance of (Rs) = 0.31 Ω according to the impedance experiments, and a specific power density of 9109.16 W kg−1. In terms of electrocatalysis, the electrode produced oxygen production overpotential and corresponding Tafel slope of 334 mV and 366 mV dec−1, whereas the hydrogen production overpotential and Tafel slope were 229 mV and 175 mV dec−1, correspondingly.

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

Ijaz,

Shahzad Ahmad,

Nawaz

et al. 2024

ChemistrySelect

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The nanocomposite material Sb2S3: SnS:MnS2 was fabricated by single precursor technique by using dithio‐carbamate ligand as Sb2S3:SnS:MnS2 (DDTC) complex. An internal and external look at the anatomy and activity of the substance was obtained by using a variety of analytical techniques like XRD, FTIR, UV‐Vis and SEM. Additionally, various electro‐analytical tools like LSV, CV, GCD and EIS were applied to confirm material's rich electro‐active capability for photoactive electrode. XRD revealed its average crystallite size of 12.33 nm with 82.8 % crystallinity. Optical characteristics represented describe effective semiconducting nature of nanomaterials with optimum band gap of 2.65 eV. By using electrochemical processes, LSV and CV demonstrated fertile opto‐electrical nature of Sb2S3: SnS: MnS2 (DDTC) material with specific capacitance, Csp, of 1080 F/g at scan rate of 2 mV/s. With a high specific power density of 2656 W/kg, the GCD technique attempted to validate the nature of the material as an electrode with a good charge‐discharge mechanism. In EIS, low series resistance, Rs=0.73 Ω, was observed to be very beneficial argument in validating the nanocomposite synthesized in this research project as effective and low‐cost material which can be applied in different energy producing and storing devices like solar system and super‐capacitors etc.

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Energy storehouse and a remarkable photocatalyst: Al₂S₃/Cu₂S/Ni₁₇S₁₈ thin film as supercapacitor electrode and pollutants degradation

Cited by 6 publications

References 60 publications

Advancing energy and water solutions: Unleashing the potential of Nd₂S₃:Ni₉S₈ thin film for supercapacitors and sustainable water purification

Advancing energy and water solutions: Unleashing the potential of Nd₂S₃:Ni₉S₈ thin film for supercapacitors and sustainable water purification

BaS₃:Sb₂S₃:GdS₂ Longitudinal Rods: Single‐Source Precursor Synthesis, Characterization, and Electrochemical Applications for Supercapacitance and Catalysis

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

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Energy storehouse and a remarkable photocatalyst: Al2S3/Cu2S/Ni17S18 thin film as supercapacitor electrode and pollutants degradation

Cited by 6 publications

References 60 publications

Advancing energy and water solutions: Unleashing the potential of Nd2S3:Ni9S8 thin film for supercapacitors and sustainable water purification

Advancing energy and water solutions: Unleashing the potential of Nd2S3:Ni9S8 thin film for supercapacitors and sustainable water purification

BaS3:Sb2S3:GdS2 Longitudinal Rods: Single‐Source Precursor Synthesis, Characterization, and Electrochemical Applications for Supercapacitance and Catalysis

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

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Product

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Energy storehouse and a remarkable photocatalyst: Al₂S₃/Cu₂S/Ni₁₇S₁₈ thin film as supercapacitor electrode and pollutants degradation

Advancing energy and water solutions: Unleashing the potential of Nd₂S₃:Ni₉S₈ thin film for supercapacitors and sustainable water purification

Advancing energy and water solutions: Unleashing the potential of Nd₂S₃:Ni₉S₈ thin film for supercapacitors and sustainable water purification

BaS₃:Sb₂S₃:GdS₂ Longitudinal Rods: Single‐Source Precursor Synthesis, Characterization, and Electrochemical Applications for Supercapacitance and Catalysis

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