Selective Growth of WSe2 with Graphene Contacts

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Abstract

Nanoelectronics of two-dimensional (2D) materials and related applications are hindered with critical contact issues with the semiconducting monolayers. To solve these issues, a fundamental challenge is selective and controllable fabrication of p-type or ambipolar transistors with a low Schottky barrier. Most p-type transistors are demonstrated with tungsten selenides (WSe2) but a high growth temperature is required. Here, we utilize seeding promoter and low pressure CVD process to enhance sequential WSe2 growth with a reduced growth temperature of 800 °C for reduced compositional fluctuations and high hetero-interface quality. Growth behavior of the sequential WSe2 growth at the edge of patterned graphene is discussed. With optimized growth conditions, high-quality interface of the laterally stitched WSe2-graphene is achieved and characterized with transmission electron microscopy (TEM). Device fabrication and electronic performances of the laterally stitched WSe2-graphene are presented.

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Lin, Y. T., Zhang, X. Q., Chen, P. H., Chi, C. C., Lin, E. C., Rong, J. G., … Lee, Y. H. (2020). Selective Growth of WSe2 with Graphene Contacts. Nanoscale Research Letters, 15(1). https://doi.org/10.1186/s11671-020-3261-y

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