Minimizing Residues and Strain in 2D Materials Transferred from PDMS

Overview

Journal Nanotechnology

Specialty Biotechnology

Date 2018 Apr 13

PMID 29644983

Citations 23

Authors

Achint Jain

Palash Bharadwaj

Sebastian Heeg

Markus Parzefall

Takashi Taniguchi

Kenji Watanabe

Lukas Novotny

Affiliations

Soon will be listed here.

Abstract

Integrating layered two-dimensional (2D) materials into 3D heterostructures offers opportunities for novel material functionalities and applications in electronics and photonics. In order to build the highest quality heterostructures, it is crucial to preserve the cleanliness and morphology of 2D material surfaces that come in contact with polymers such as PDMS during transfer. Here we report that substantial residues and up to ∼0.22% compressive strain can be present in monolayer MoS transferred using PDMS. We show that a UV-ozone pre-cleaning of the PDMS surface before exfoliation significantly reduces organic residues on transferred MoS flakes. An additional 200 C vacuum anneal after transfer efficiently removes interfacial bubbles and wrinkles as well as accumulated strain, thereby restoring the surface morphology of transferred flakes to their native state. Our recipe is important for building clean heterostructures of 2D materials and increasing the reproducibility and reliability of devices based on them.

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