AI Chat Paper
Note: Please note that the following content is generated by AMiner AI. SciOpen does not take any responsibility related to this content.
{{lang === 'zh_CN' ? '文章概述' : 'Summary'}}
{{lang === 'en_US' ? '中' : 'Eng'}}
Chat more with AI
PDF (1.6 MB)
Collect
Submit Manuscript AI Chat Paper
Show Outline
Outline
Show full outline
Hide outline
Outline
Show full outline
Hide outline
Research Article | Open Access | Just Accepted

Mitigating Fermi-level pinning in 2D transistors via reactive phase-transformed contacts

Mengting HuangShuangquan QuYiming DingBinbin ZhangShibo WangXiaolong Xu ( )Yeliang Wang ( )

School of Integrated Circuits and Electronics, MIIT Key Laboratory for Low-Dimensional Quantum Structure and Devices, Beijing Institute of Technology, Beijing 100081, China

Show Author Information

Abstract

The integration of high-performance two-dimensional (2D) semiconductor devices is fundamentally bottlenecked by severe Fermi-level pinning (FLP) at the metal-semiconductor interface. Direct deposition of high-work-function, high-melting-point metals typically inflicts structural damage on the 2D lattice, generating interfacial defects that strongly pin the Fermi level. Here, we report a damage-free metallization strategy utilizing low-temperature phase engineering to achieve highly conductive, weakly pinned contacts. We employ a low-energy evaporation of tellurium (Te) as a non-destructive buffer layer, which effectively shields the underlying 2D channel during the subsequent deposition of palladium (Pd). Through a precisely controlled low-temperature annealing process, the Te and Pd layers undergo a solid-state reaction, transforming into a highly conductive, high-work-function metallic PdTe2 phase. We demonstrate that PdTe2-contacted MoTe2 field-effect transistors (FETs) exhibit significantly enhanced electrical performance compared to those with directly deposited Pd or unannealed Te/Pd contacts. Furthermore, applying this strategy to WSe2 FETs shifts the transport from a strongly pinned n-type behavior—characteristic of direct Pd contacts—to a weakly pinned ambipolar characteristic with superior electrical properties. Crucially, the low thermal budget of this phase-transformation process offers a scalable pathway for integrating pristine, high-performance 2D electronics.

Graphical Abstract

References

【1】
【1】
 
 
Nano Research

{{item.num}}

Comments on this article

Go to comment

< Back to all reports

Review Status: {{reviewData.commendedNum}} Commended , {{reviewData.revisionRequiredNum}} Revision Required , {{reviewData.notCommendedNum}} Not Commended Under Peer Review

Review Comment

Close
Close
Cite this article:
Huang M, Qu S, Ding Y, et al. Mitigating Fermi-level pinning in 2D transistors via reactive phase-transformed contacts. Nano Research, 2026, https://doi.org/10.26599/NR.2026.94908890
Topics:

230

Views

43

Downloads

0

Crossref

0

Web of Science

0

Scopus

0

CSCD

Received: 27 April 2026
Revised: 21 May 2026
Accepted: 27 May 2026
Available online: 27 May 2026

© The Author(s) 2026. Published by Tsinghua University Press.

This is an open access article under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0, https://creativecommons.org/licenses/by/4.0/)