Nanostructured transition metal sulphides based electrode materials for enhanced glucose oxidation reaction

“…S1,† the redox peaks are at approximately −0.10 to 0.80 V, corresponding to one-electron transfer of thiourea to formamidine disulphide. 26…”

“…S1, † the redox peaks are at approximately −0.10 to 0.80 V, corresponding to one-electron transfer of thiourea to formamidine disulphide. 26 Fig. 2(a, d and g) shows SEM images and the corresponding model diagram of FeS/NF, which showcase its characteristic nanorod structure.…”

Two birds with one stone: facile fabrication of an iron–cobalt bimetallic sulfide nanosheet-assembled nanosphere for efficient energy storage and hydrogen evolution

“…S1,† the redox peaks are at approximately −0.10 to 0.80 V, corresponding to one-electron transfer of thiourea to formamidine disulphide. 26…”

“…S1, † the redox peaks are at approximately −0.10 to 0.80 V, corresponding to one-electron transfer of thiourea to formamidine disulphide. 26 Fig. 2(a, d and g) shows SEM images and the corresponding model diagram of FeS/NF, which showcase its characteristic nanorod structure.…”

Two birds with one stone: facile fabrication of an iron–cobalt bimetallic sulfide nanosheet-assembled nanosphere for efficient energy storage and hydrogen evolution

“…However, their expensive cost and poor stability are constrained by their tremendous catalytic activity [40]. Therefore, over the recent years, numerous non-noble metal-based catalysts, including carbon-based materials [41,42], transition metal sulfides (TMSs) [43,44], phosphides [45][46][47][48], oxides [49,50], etc often used as the catalysts for MABs. In particular, nanostructured transition single metal and mixed metals sulfides have validated an advanced electrocatalytic ORR/OER performance, due to their higher electronic conductivity and fast-charge transfer kinetics.…”

Transition metal sulfide nanostructures: synthesis and application in metal-air batteries