Shape-dependent close-edge 2D-MoS2nanobelts

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Abstract

Atomic-thin MoS2 materials have attracted increasing attention due to their potentials in numerous fields. However, in 2D-MoS2 sheets, the edge region usually has unique features differing from the interior region, which has potential application in enhancing catalysts and shape-dependent 2D-nanodevices. However, fabricating it cost-effectively is still very difficult. Here, we present one universal method to obtain various shape-dependent closed-edge 2D-MoS2 nanobelts only using one simple step, and width of the MoS2 nanobelts (minimum of 270 nm) were adjustable. Our strategy opens a new fabrication route for closed-edge 2D-MoS2 nanobelts, and in principle, this method is also suitable for other CVD-grown 2D materials.

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Wang, X., Yang, H., Feng, H., Wang, L., Chen, S., Zhou, Z., … Liu, Q. (2020). Shape-dependent close-edge 2D-MoS2nanobelts. RSC Advances, 10(55), 33544–33548. https://doi.org/10.1039/d0ra06440h

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