Abstract
The cost-effective exfoliation of layered materials such as transition metal dichalcogenides into mono- or few- layers is of significant interest for various applications. This paper reports the preparation of few-layered MoS&sub2; from natural SiO&sub2;-containing molybdenite by exfoliation in isopropanol (IPA) under mild ultrasonic conditions. One- to six-layer MoS&sub2; nanosheets with dimensions in the range of 50-200 nm are obtained. By contrast, MoS&sub2; quantum dots along with nanosheets are produced using N-methyl-pyrrolidone (NMP) and an aqueous solution of poly (ethylene glycol)-block-poly (propylene glycol)-block-poly (ethylene glycol) (P123) as exfoliation solutions. Compared with molybdenite, commercial bulk MoS&sub2; cannot be exfoliated to nanosheets under the same experimental conditions. In the exfoliation process of the mineral, SiO&sub2; associated in molybdenite plays the role of similar superfine ball milling, which significantly enhances the exfoliation efficiency. This work demonstrates that isopropanol can be used to exfoliate natural molybdenite under mild conditions to produce nanosheets, which facilitates the preparation of highly concentrated MoS&sub2; dispersions or MoS&sub2; in powder form due to the volatility of the solvent. Such exfoliated MoS&sub2; nanosheets exhibit excellent photoconductivity under visible light. Hence, the direct mild exfoliation method of unrefined natural molybdenite provides a solution for low-cost and convenient production of few-layered MoS&sub2; which is appealing for industrial applications.