Wang Lin
18 Papers
2 Citations
Wang Lin is an academic researcher. The author has contributed to research in topics: Transition metal & Chemistry. The author has an hindex of 2, co-authored 3 publications.
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Papers
MOF-derived Co, Fe, and Ni co-doped N-enriched hollow carbon as efficient electrocatalyst for oxygen reduction reaction
TL;DR: In this article, a facile corrosion, pyrolysis, and replacement method was proposed for co-doped and N-enriched hollow carbon (CoFeNi/NC) to be used as an oxygen reduction reaction (ORR) electrocatalyst.
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Transition metal (Ni, Cu and Fe) doped MnS nanostructures: Effect of doping on supercapacitance and water splitting
Gervais A. Tigwere,Malik Dilshad Khan,Linda D. Nyamen,Felipe M. de Souza,Wang Lin,Ram B. Gupta,Neerish Revaprasadu,Peter T. Ndifon +7 more
TL;DR: In this article , cubic phase α-MnS and transition metal (Cu2+, Fe3+, and Ni2+) doped MnS nanoparticles were synthesized via the hot injection method from their piperazinyl dithiocarbamate complexes, respectively.
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Phase Transformations in the Nickel Phosphide System Induced by Transition-Metal Doping and their Electro-catalytic Study
Gwaza E. Ayom,Malik Dilshad Khan,Siphamandla C. Masikane,Felipe M. de Souza,Wang Lin,Ram K. Gupta,Neerish Revaprasadu +6 more
TL;DR: The synthesis of pure-phase nickel phosphide is of immense interest due to its wide scale applications in various electrocatalytic reactions as discussed by the authors , and it has been reported the facile synthesis of nickel phosphides and rare rare metal elements.
Synthesis of phyto-mediated CuO–ZrO2 nanocomposite and investigation of their role as electrode material for supercapacitor and water splitting studies
Sundus Azhar,Khuram Shahzad Ahmad,Isaac Abrahams,Wang Lin,Ram K. Gupta,Adel El-marghany +5 more
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Tuned morphology configuration to augment the electronic structure and durability of iron phosphide for efficient bifunctional electrocatalysis and charge storage
Anjali Gupta,Cassia A. Allison,Anuj Kumar,Rishabh Srivastava,Wang Lin,Jolaikha Sultana,Sanjay R. Mishra,Felio Perez,Ram K. Gupta,Timothy R. Dawsey +9 more
TL;DR: Researchers developed a novel iron phosphide (FeP) morphology with improved electrical conductivity, catalytic property, and specific capacitance, demonstrating efficient bifunctional electrocatalysis and charge storage capabilities for hydrogen production and supercapacitor applications.
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