Abstract:The effects of temperature and pressure on the electrical conductance of the transition metal chalcogenides MnS and CdS were studied by combining diamond anvil cell (DAC) technique with electrical linear sweep voltammetry. It is found that near room temperature, with a pressure of 28.3 GPa, the initially cubic rocksalt phase of MnS changes from a semiconductor to a metallic conductor, which is not associated with any structural phase change. However, for the initially hexagonal wurtzite phase of CdS, with a pressure up to 42.2 GPa, there is no semiconductor-to-metallic change. This research provides fundamental knowledge for the development of applications of transition metal chalcogenides in photocatalysis, electrocatalysis and batteries.