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High‐Performance Large‐Scale Vertical 1T'/2H Homojunction CVD‐Grown Polycrystalline MoTe<sub>2</sub> Transistors

Zijian Xie, Wenyu Lei, Wenfeng Zhang, Yuan Liu, Li Yang, Xiaokun Wen, Haixin Chang

2021Advanced Materials Interfaces19 citationsDOI

Abstract

Abstract 2D transition metal dichalcogenides (TMDs) have emerged as an ideal alternative to silicon in advanced electronics. Especially, MoTe 2 attracts peculiar attention since it offers a unique opportunity of resolving critical electrical contacts. Currently, although MoTe 2 ‐based coplanar semiconductor‐metal circuitry realized by epitaxial growth and chemical assembly has been demonstrated, while still suffers from the requirement of extremely accurate synthesis process control. Here, a facile strategy is demonstrated to fabricate large scale and high performance MoTe 2 transistors with a 1T'/2H vertical homojunction structure by combining a spatial and phase controlled MoTe 2 scalable synthesis and a scalable universal transfer method with water‐soluble poly‐vinylpyrrolidone and poly‐(vinyl alcohol) bilayer mediator. Both high quality 1T'‐ and 2H‐ MoTe 2 with controlled dimensions can be scalable synthesized via a shadow mask assisted chemical vapor deposition method. These as‐synthesized MoTe 2 patterns can be successfully transferred to a wide range of substrates at a high yield &gt;80% with well‐retained properties to construct transistors with a complex vertical 1T'/2H‐MoTe 2 /HfAlO 2 structure. The devices exhibit an on/off current ratio surpassing 10 4 and a typical mobility of ≈29 cm 2 V −1 s −1 . The developed scaled strategy of combining both scalable MoTe 2 synthesis and transfer offers a feasible way for potential MoTe 2 ‐based large‐scale electronics.

Topics & Concepts

HomojunctionMaterials scienceChemical vapor depositionTransistorNanotechnologyOptoelectronicsThin-film transistorElectronicsDopingElectrical engineeringVoltageLayer (electronics)Engineering2D Materials and ApplicationsAdvanced Sensor and Energy Harvesting MaterialsFerroelectric and Negative Capacitance Devices
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