An efficient route to prepare suspended monolayer for feasible optical and electronic characterizations of two-dimensional materials

Yuan Huang, Yun Kun Wang, Xin Yu Huang, Guan Hua Zhang, Xu Han, Yang Yang, Yunan Gao*, Lei Meng, Yushu Wang, Guang Zhou Geng, Li Wei Liu, Lin Zhao, Zhi Hai Cheng, Xin Feng Liu, Ze Feng Ren, Hui Xia Yang, Yufeng Hao*, Hong Jun Gao, Xing Jiang Zhou*, Wei Ji*Ye Liang Wang*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

29 Citations (Scopus)

Abstract

Two-dimensional (2D) materials are highly sensitive to substrates, interfaces, and the surrounding environments. Suspended 2D materials are free from substrate-induced effects, thus an ideal approach to study their intrinsic properties. However, it is very challenging to prepare large-area suspended 2D materials with high efficiency. Here we report a universal method, based on pretreatments of densely patterned hole array substrates with either oxygen-plasma or gold film deposition, to prepare large-area suspended mono- and few-layer 2D materials. Multiple structural, optical, and electrical characterization tools were used to fully evaluate the improved performance of various suspended 2D layers. Some of these observations reported in this study are: (1) Observation of a new Raman low frequency mode for the suspended MoS2; (2) Significantly stronger photoluminescence (PL) and second harmonic generation (SHG) signals of suspended WSe2, which enables the study of new optical transition processes; (3) The low energy electron diffraction pattern on suspended MoS2 also exhibits much sharper spots than that on the supported area; and (4) The mobility of suspended graphene device approaches 300 000 cm2 V−1 s−1, which is desirable to explore the intrinsic properties of graphene. This work provides an innovative and efficient route for fabricating suspended 2D materials, and we expect that it can be broadly used for studying intrinsic properties of 2D materials and in applications of hybrid active nanophotonic and electronic devices. (Figure presented.).

Original languageEnglish
Article numbere12274
JournalInfoMat
Volume4
Issue number2
DOIs
Publication statusPublished - Feb 2022

Keywords

  • Raman spectrum
  • mechanical exfoliation
  • photoluminescence
  • suspended 2D materials

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