Group by: Item Type | No Grouping Jump to: Article Number of items: 6. ArticleKumar, J. Sharath and Bolar, Saikat and Murmu, Naresh Chandra and Ganesh, R. Sankar and Inokawa, Hiroshi and Banerjee, Amit and kuila, Tapas (2019) Synthesis of Tri‐functional Core‐shell CuO@carbon Quantum Dots@carbon Hollow Nanospheres Heterostructure for Non‐enzymatic H2O2 Sensing and Overall Water Splitting Applications. Electroanalysis , 31 (11). pp. 2120-2129. Bolar, Saikat and Shit, Subhasis and Kumar, J. Sharath and Murmu , Naresh Chandra and Ganesh, R. Sankar and Inokawa , Hiroshi and Kuila, Tapas (2019) Optimization of active surface area of flower like MoS2 using V-doping towards enhanced hydrogen evolution reaction in acidic and basic medium. Applied Catalysis B: Environmental, 254. pp. 432-442. Saha, Sanjit and Kumar, J. Sharath and Murmu, Naresh Chandra and Samanta, Pranab and Kuila, Tapas (2018) Controlled electrodeposition of iron oxide/nickel oxide@Ni for the investigation of the effects of stoichiometry and particle size on energy storage and water splitting applications. Journal of Materials Chemistry A, 6. pp. 9657-9664. Kumar, J. Sharath and Murmu, Naresh Chandra and Samanta, Pranab and Banerjee, Amit and Ganesh, R. Sankar and Inokawa, Hiroshi and Kuila, Tapas (2018) Novel synthesis of a Cu2O–graphene nanoplatelet composite through a two-step electrodeposition method for selective detection of hydrogen peroxide. New Journal of Chemistry, 42 (5). pp. 3574-3581. Kumar, J. Sharath and Jana, Milan and Khanra, Partha and Samanta, Pranab and Koo, Hyeyoung and Murmu, Naresh Chandra and Kuila, Tapas (2016) One pot synthesis of Cu2O/RGO composite using mango bark extract and exploration of its electrochemical properties. Electrochimica Acta, 193. pp. 104-115. Jana, Milan and Kumar, J. Sharath and Khanra, Partha and Samanta, Pranab and Koo, Hyeyoung and Murmu, Naresh Chandra and Kuila, Tapas (2016) Superior performance of asymmetric supercapacitor based on reduced graphene oxide–manganese carbonate as positive and sono-chemically reduced graphene oxide as negative electrode materials. Journal of Power Sources, 303. pp. 222-233. |