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Designing of Ag <sub>2</sub> S Nanowires from a Single‐Source Molecular Precursor [(PPh <sub>3</sub> ) <sub>2</sub> AgS <sub>2</sub> P(O <sup> <i>i</i> </sup> Pr) <sub>2</sub> ] for Hydrogen Evolution Reaction

Samreet Khirid, Rathindranath Biswas, Sangeeta Meena, Ranjit A. Patil, Yuan‐Ron Ma, Rupesh S. Devan, Rajendra S. Dhayal, Krishna Kanta Haldar

2020ChemistrySelect19 citationsDOI

Abstract

Abstract In the present study, we illustrated a facile fabrication of large scale ultra‐thin silver sulfide (Ag 2 S) nanowires (NWs) and its promising application in hydrogen evolution reaction (HER). Ultra‐thin and highly uniform Ag 2 S nanostructures were fabricated from single‐source precursor [(PPh 3 ) 2 AgS 2 P(O i Pr) 2 ], and characterized by utilizing various structural and imaging techniques. Large‐scale monodispersed ultra‐thin single‐crystalline Ag 2 S nanowires were generated via n‐decylboronic acid induced thermal decomposition of the single precursor in the presence of octadecyl amine and oleyl amine mixture under anaerobic conditions. We explored the catalytic activities of Ag 2 S nanowires for HER which showed an overpotential of−88 mV at 10 mA/cm 2 and the corresponding Tafel slope was found to be 52 mV dec −1 .

Topics & Concepts

NanowireTafel equationThermal decompositionMaterials scienceCatalysisOverpotentialFabricationDecompositionThin filmNanostructureAmine gas treatingNanotechnologyCrystallographyChemical engineeringChemistryPhysical chemistryElectrochemistryOrganic chemistryElectrodePathologyEngineeringAlternative medicineMedicineChalcogenide Semiconductor Thin FilmsElectrocatalysts for Energy ConversionAdvanced battery technologies research
Designing of Ag <sub>2</sub> S Nanowires from a Single‐Source Molecular Precursor [(PPh <sub>3</sub> ) <sub>2</sub> AgS <sub>2</sub> P(O <sup> <i>i</i> </sup> Pr) <sub>2</sub> ] for Hydrogen Evolution Reaction | Litcius