Introduction Tungsten disulfide (WS

Introduction
Tungsten disulfide (WS2), as a typical layered transition metal disulfide , in recent years , has garnered a respectable interest for its unusual combination properties and extensive applications in catalysis, hydrogen storage media, electrode materials for high energy batteries, and lubricants Therefore, it is extraordinarily important to synthesis WS2 with well-controlled dimensionality, size, morphology ,and crystal structure for industrial and high technology applications. Many methods, such as thermal evaporation technique, sol–gel method, mechanical activation method have been employed to synthesis WS2 nanomaterial. However, these methods, either involve a high temperature procedure or a complicated manipulation, which may result in the cost increase and further limit the potential applications. The hydrothermal method is considered as one promising route, owing to its advantages of environment friendly, simple fabrication process and high product purity. Recently, various nanostructures were synthesized via the hydrothermal process by adding different surfactants including CTAB, PEG, hexamethylenetetramine (HMT). Therein, CTAB or PEG used as a shape controller and stabilizer, in solution have been proved to be a versatile “soft template” by self-assembling to form different conformations and synthesize various nanostructures materials. Hence, much effort has been also devoted to the synthesis of variousWS2 morphologies with the assistance of surfactants. But the effects of surfactants on the formation of morphologies and their growth mechanism have not been reported exactly. Here, we have prepared successfully variousWS2 morphologies via the hydrothermal process by adding different surfactants. The possible growth mechanism of WS2 nanostructures has been discussed in detail