Synthesis of 2D α‐GeTe Single Crystals and α‐GeTe/WSe2 Heterostructures with Enhanced Electronic Performance

Synthesis of 2D α‐GeTe Single Crystals and α‐GeTe/WSe2 Heterostructures with Enhanced Electronic Performance

Two‐dimensional (2D) materials have attracted extensive attention due to their important prospects in electronics and optoelectronics. Synthesizing new 2D materials, characterizing their properties, and developing their applications are still important topics. Herein, the synthesis of α‐GeTe nanopla...

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Bibliographic Details
Published in:Advanced functional materials Vol. 32; no. 35
Main Authors: Li, Wei, Wu, Ruixia, Li, Qiuqiu, Tao, Quanyang, Saeed, Muhammad Zeeshan, Li, Xin, Wan, Si, Song, Rong, Shen, Dingyi, Huang, Kejing, Liu, Miaomiao, Li, Bailing, Zhao, Bei, Liu, Jialing, Liu, Yuan, Li, Bo, Li, Jia, Duan, Xidong
Format: Journal Article
Language:English
Published: Hoboken Wiley Subscription Services, Inc 01-08-2022
Subjects:
2D materials
Carrier gases
Chemical vapor deposition
Electrical properties
Electrodes
Electron mobility
Electronic devices
field‐effect transistors
Heterostructures
Materials science
Optoelectronics
Performance enhancement
Semiconductor devices
Single crystals
Substrates
Thickness
Transistors
Two dimensional materials
Unit cell
van der Waals epitaxy
α‐GeTe single crystal
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Summary:Two‐dimensional (2D) materials have attracted extensive attention due to their important prospects in electronics and optoelectronics. Synthesizing new 2D materials, characterizing their properties, and developing their applications are still important topics. Herein, the synthesis of α‐GeTe nanoplates on different substrates via the chemical vapor deposition process and the systematical investigation of their structure and electrical properties, is reported. By controlling the synthesis temperature and carrier gas, α‐GeTe nanoplates, with a lateral dimension up to 30 µm and a thickness down to 1.2 nm, which corresponds to the thickness of one unit cell, can be obtained on 2D WSe2 substrate. Electrical transport studies show 2D α‐GeTe nanoplates have an excellent conductivity (9.33 × 105 S m−1) and an extraordinary breakdown current density (6.1× 107 A cm−2). Compared with traditional WSe2 transistors with deposited metal electrodes, the WSe2 transistors with the metallic α‐GeTe nanoplates as van der Waals metal electrodes achieved much better performance, such as higher on‐state current (from 7.83 to 23.23 µA µm−1) and electron mobility (from 16.5 to 75.0 cm2 V1 S1). This study demonstrates an effective pathway to achieve ultrathin 2D materials and provides an accessible strategy to improve the performance of 2D electronic devices. The synthesis of α‐GeTe nanoplates on different substrates is reported via the chemical vapor deposition process and the systematical investigation of their structure and electrical properties. 2D α‐GeTe nanoplates with excellent conductivity and an extraordinary breakdown current density provide an accessible strategy to improve the performance of 2D electronic devices.
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.202201673