Journal
ACS APPLIED ELECTRONIC MATERIALS
Volume 5, Issue 2, Pages 913-919Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsaelm.2c01465913
Keywords
graphene electrode; dual channel; gate tunable; WSe2; WS2
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Two-dimensional semiconductor heterostructures have great research potential for electronic and optoelectronic applications due to their scalable thickness, pristine heterostructure interface, and ultrafast carrier transport. We present a dual-channel field-effect transistor based on n-type WS2 and p-type WSe2 layered heterostructure, using multilayered graphene as electrodes to enable electron-dominated ambipolar electrical transport. WS2 exhibits a mobility of 20 cm2 V-1 s(-1) and an on/off ratio of 105, while WSe2 exhibits a mobility of 5 cm2 V-1 s(-1) and an on/off ratio of 104. Moreover, our results show negative Schottky barrier heights between the dual-channel heterostructure and multilayered graphene. This proposed design simplifies the fabrication of devices with integrated heterostructures, especially for complementary metal-oxide semiconductor inverter applications.
Two-dimensional semiconductor heterostructures provide significant research potential for electronic and optoelectronic applications because of their scaled thickness, pristine heterostructure interface, and ultrafast carrier transport. Herein, we report a dual-channel field-effect transistor based on ntype WS2 and p-type WSe2 layered heterostructure using multilayered graphene as electrodes to enable electron-dominated ambipolar electrical transport. WS2 exhibits mobility of 20 cm2 V-1 s(-1) and an on/off ratio of 105, whereas WSe2 exhibits mobility of 5 cm2 V-1 s(-1) and an on/off ratio of 104. Furthermore, our results show negative Schottky barrier heights between dual-channel heterostructure and multilayered graphene. The proposed design reduces complications in the fabrication of devices with integrated heterostructures, particularly for complementary metal-oxide semiconductor inverter applications.
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