Litcius/Paper detail

Strain engineering in 2D hBN and graphene with evaporated thin film stressors

Ahmad Azizimanesh, Aditya Dey, Shoieb Ahmed Chowdhury, Eric Wenner, Wenhui Hou, Tara Peña, Hesam Askari, Stephen M. Wu

2023Applied Physics Letters23 citationsDOI

Abstract

We demonstrate a technique to strain two-dimensional hexagonal boron nitride (hBN) and graphene by depositing stressed thin films to encapsulate exfoliated flakes. We choose optically transparent stressors to be able to analyze strain in 2D flakes through Raman spectroscopy. Combining thickness-dependent analyses of Raman peak shifts with atomistic simulations of hBN and graphene, we can explore layer-by-layer strain transfer in these materials. hBN and graphene show strain transfer into the top four and two layers of multilayer flakes, respectively. hBN has been widely used as a protective capping layer for other 2D materials, while graphene has been used as a top gate layer in various applications. Findings of this work suggest that straining 2D heterostructures with evaporated stressed thin films through the hBN capping layer or graphene top contact is possible since strain is not limited to a single layer.

Topics & Concepts

GrapheneMaterials scienceRaman spectroscopyHexagonal boron nitrideLayer (electronics)Strain (injury)HeterojunctionThin filmStrain engineeringNanotechnologyOptoelectronicsSiliconOpticsMedicineInternal medicinePhysicsGraphene research and applications2D Materials and ApplicationsDiamond and Carbon-based Materials Research
Strain engineering in 2D hBN and graphene with evaporated thin film stressors | Litcius