Direct X-Ray Measurements of Strain in Monolayer MoS2 from Capping Layers and Geometrical Features
Abstract
Strain induced through fabrication, both by patterning and capping, can be used to change the properties of two-dimensional (2D) materials or other thin films. Here, we explore how capping layers impart strain to monolayer MoS2 using direct x-ray diffraction measurements of the lattice. We first observe the impact of naturally-oxidized metal layers (1.5 nm Al) and subsequently-deposited Al2O3 (15 nm to 25 nm thick) on the 2D material, and find that the strain imparted to MoS2 is mainly controlled by the interfacial adhesion of the seed layer in addition to the substrate adhesion. Then, using test structures which mimic transistor contacts, we measure enhanced strain from such patterns compared to blanket films. Furthermore, we observe significant tensile strain - up to 2% in monolayer MoS2, one of the largest experimental values to date on a rigid substrate - due to highly-stressed blanket metal capping layers. These results provide direct evidence supporting previous reports of strain effects in 2D material devices.
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