https://scholars.lib.ntu.edu.tw/handle/123456789/633693
Title: | Robust Anti-Ambipolar Behavior and Gate-Tunable Rectifying Effect in van der Waals p-n Junctions | Authors: | Lv, Yanhui Wu, Che Yu Zhao, Yue Wu, Gang Abid, Mohamed Cho, Jiung Choi, Miri Ó Coileaín, Cormac Hung, Kuan Ming CHING-RAY CHANG YUH-RENN WU Wu, Han Chun |
Keywords: | anti-ambipolar behavior | p-n junction | Raman quenching effect | rectifying effect | van der Waals materials | Issue Date: | 22-Nov-2022 | Journal Volume: | 4 | Journal Issue: | 11 | Source: | ACS Applied Electronic Materials | Abstract: | Anti-ambipolar behavior has been observed in multilayer two-dimensional semiconductors and many p-n junctions. However, temperatures in the range of tens of kelvin are usually required, and there are gaps in the understanding of the underlying physics, most notably the roles of the space charge region and van der Waals (vdW) heterojunction. Here, we systematically investigate the unique transport and transfer characteristics of vertically stacked vdW contacted p-WSe2/n-SnS2and p-WSe2/n-MoS2junctions. Interestingly, robust anti-ambipolar behavior is observed at low and room temperature for both darkened and illuminated conditions. A peak-to-valley current ratio exceeding 104and on-state gating field ranging from-0.3 × 106to 0.57 × 106V/cm are achieved at room temperature in darkness. Moreover, the rectifying effect and the type of majority charge carrier of the WSe2/SnS2junction can be tuned by an electric gate. Robust Raman quenching over the whole interface induced by strong charge transfer is also observed. Based on an equivalent circuit model, a Poisson and drift-diffusion simulation, and experiments with local illumination, we highlight the role of the van der Waals heterojunction. We show that the observed unique anti-ambipolar behavior is due to the recombination of electrons and holes at the space charge region rather than carrier diffusion in the turned-off metal-oxide-semiconductor field-effect transistor (MOSFET). A larger vdW barrier and interface recombination at the vdW barrier are key to having a strong on/off ratio especially at room temperature. The p-n vdW heterostructure plays the roles of a complementary MOSFET connecting with a heterojunction diode, not only a ternary logic inverter but also a tunable multiple-gain amplifier in wide-range gating fields. The width of the middle logic plateau can reach 45 V in a WSe2/MoS2junction. |
URI: | https://scholars.lib.ntu.edu.tw/handle/123456789/633693 | ISSN: | 2637-6113 | DOI: | 10.1021/acsaelm.2c01120 |
Appears in Collections: | 電機工程學系 |
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