Direct Solution Phase Synthesis and Functionalization of 2D WSe2 for Ambient Stability.

Abstract

2H phase tungsten diselenide (WSe2) is a p-type 2D semiconductor from the transition metal dichalcogenides (TMDs) family with unique opto-electrical properties. Solution phase production of atomically thin WSe2is challenging due to its instability under ambient conditions. We present a highly efficient and scalable solution method for simultaneously exfoliating and functionalizingWSe2by leveraging the noncovalent interaction between mercapto-group and bulk WSe2.Single and few-layer 2H phase pure WSe2sheets of lateral size up to 5µm with minimal basal plane defects, as revealed by XPS, Raman and FTIR spectroscopy, are produced in water-ethanol mixture. Remarkably, WSe2dispersion remains stable even at high concentrations (10 mg/ml) and exhibited high colloidal stability with shelf-life exceeding a year. The findings from our study suggest that through precise manipulation of intercalation chemistry, mass production of solution processable phase-sensitive 2D materials such as WSe2can be achieved. This advancement holds great potential for facilitating their practical utilization in various real-world applications.