This review describes recent progress in the synthesis of transition metal dichalcogenides via vapour deposition methods with the control of the layer number and band gap energy.
Novel ternary electrode materials based on graphene, NiCo2S4, and transition metal dichalcogenides were designed and fabricated with the intention of exploiting synergistic effects conducive to supercapacitive energy storage.
Valley pseudospin of 2D transition-metal dichalcogenides is promising for information technologies, but its robust manipulation is challenging. This minireview highlights recent progress on using nanophotonic strategies to address this challenge.