通过缺陷工程实现共价互连的过渡金属二硫属化物网络用于高性能电子器件。

Covalently interconnected transition metal dichalcogenide networks via defect engineering for high-performance electronic devices.

作者信息

Ippolito Stefano, Kelly Adam G, Furlan de Oliveira Rafael, Stoeckel Marc-Antoine, Iglesias Daniel, Roy Ahin, Downing Clive, Bian Zan, Lombardi Lucia, Samad Yarjan Abdul, Nicolosi Valeria, Ferrari Andrea C, Coleman Jonathan N, Samorì Paolo

机构信息

Université de Strasbourg, CNRS, ISIS UMR 7006, Strasbourg, France.

School of Physics, Centre for Research on Adaptive Nanostructures and Nanodevices (CRANN) and Advanced Materials and Bioengineering Research (AMBER), Trinity College Dublin, Dublin, Ireland.

出版信息

Nat Nanotechnol. 2021 May;16(5):592-598. doi: 10.1038/s41565-021-00857-9. Epub 2021 Feb 25.

DOI:10.1038/s41565-021-00857-9

PMID:33633405

Abstract

Solution-processed semiconducting transition metal dichalcogenides are at the centre of an ever-increasing research effort in printed (opto)electronics. However, device performance is limited by structural defects resulting from the exfoliation process and poor inter-flake electronic connectivity. Here, we report a new molecular strategy to boost the electrical performance of transition metal dichalcogenide-based devices via the use of dithiolated conjugated molecules, to simultaneously heal sulfur vacancies in solution-processed transition metal disulfides and covalently bridge adjacent flakes, thereby promoting percolation pathways for the charge transport. We achieve a reproducible increase by one order of magnitude in field-effect mobility (µ), current ratio (I/I) and switching time (τ) for liquid-gated transistors, reaching 10 cm V s, 10 and 18 ms, respectively. Our functionalization strategy is a universal route to simultaneously enhance the electronic connectivity in transition metal disulfide networks and tailor on demand their physicochemical properties according to the envisioned applications.

摘要

溶液法制备的半导体过渡金属二硫属化物是印刷（光）电子学领域中日益增长的研究热点。然而，器件性能受到剥离过程中产生的结构缺陷以及片层间电子连通性差的限制。在此，我们报道了一种新的分子策略，通过使用二硫醇化共轭分子来提高基于过渡金属二硫属化物的器件的电学性能，以同时修复溶液法制备的过渡金属二硫化物中的硫空位，并共价连接相邻的片层，从而促进电荷传输的渗流路径。对于液栅晶体管，我们实现了场效应迁移率（µ）、电流比（I/I）和开关时间（τ）可重复地提高一个数量级，分别达到10 cm² V⁻¹ s⁻¹、10和18 ms。我们的功能化策略是一种通用方法，可同时增强过渡金属二硫化物网络中的电子连通性，并根据预期应用按需定制其物理化学性质。

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通过缺陷工程实现共价互连的过渡金属二硫属化物网络用于高性能电子器件。

Covalently interconnected transition metal dichalcogenide networks via defect engineering for high-performance electronic devices.

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