Ruixia Wu scite author profile

Strain engineering is a promising method to manipulate the electronic and optical properties of two-dimensional (2D) materials. However, with weak van der Waals interaction, severe slippage between 2D material and substrate could dominate the bending or stretching processes, leading to inefficiency strain transfer. To overcome this limitation, we report a simple strain engineering method by encapsulating the monolayer 2D material in the flexible PVA substrate through spin-coating approach. The strong interaction force between spin-coated PVA and 2D material ensures the mechanical strain can be effectively transferred with negligible slippage or decoupling. By applying uniaxial strain to monolayer MoS 2 , we observe a higher bandgap modulation up to~300 meV and a highest modulation rate of~136 meV/%, which is approximate two times improvement compared to previous results achieved. Moreover, this simple strategy could be well extended to other 2D materials such as WS 2 or WSe 2 , leading to enhanced bandgap modulation.

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White-light emission from near UV InGaN-GaN LED chip precoated with blue/green/red phosphors

Sheu

Chang

Kuo

et al. 2003

IEEE Photon. Technol. Lett.

618

230

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High-order superlattices by rolling up van der Waals heterostructures

Zhao

Wan

Liu

et al. 2021

Nature

209

191

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Ruixia Wu

General synthesis of two-dimensional van der Waals heterostructure arrays

Van der Waals epitaxial growth of air-stable CrSe2 nanosheets with thickness-tunable magnetic order

Efficient strain modulation of 2D materials via polymer encapsulation

White-light emission from near UV InGaN-GaN LED chip precoated with blue/green/red phosphors

High-order superlattices by rolling up van der Waals heterostructures

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