1. Wafer-scale Te thin film with high hole mobility and piezoelectric coefficients.
- Author
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Tai, Xiaochi, Zhao, Qianru, Chen, Yan, Jiao, Hanxue, Wu, Shuaiqin, Zhou, Dongjie, Huang, Xinning, Xiong, Ke, Lin, Tie, Meng, Xiangjian, Wang, Xudong, Shen, Hong, Chu, Junhao, and Wang, Jianlu
- Subjects
P-type semiconductors ,THIN films ,ATOMIC force microscopy ,HOLE mobility ,CRYSTALLIZATION kinetics - Abstract
p-type semiconductors are significant for integrated nanoelectronics. Tellurium (Te), a mono-elemental material, is a p-type semiconductor with high mobility. Its outstanding performance renders it widely applicable in the fields of electronics and optoelectronics. However, the wafer-scale fabrication of Te thin films is challenging. In this study, we reported an ion-bean sputtered Te thin film and investigated the effects of annealing temperatures. Annealing-induced crystallization kinetics were assessed through Raman spectroscopy, x-ray diffraction, and atomic force microscopy. After annealing, the film's conductivity increased from 10
−5 to 10−4 S and mobility from 18 to 53 cm2 V−1 s−1 . Dual AC resonance tracking switching spectroscopy piezoelectric force microscopy is used to investigate piezo/ferroelectric properties. The coercive voltages are −2 and 4 V respectively, and the effective piezoelectric coefficient (d33 ) is 40 pm/V. Butterfly and phase-switching loops demonstrate its possible ferroelectricity. The Te thin film has potential applications in optoelectronics, nonvolatile memory devices, and neuromorphic computation. [ABSTRACT FROM AUTHOR]- Published
- 2024
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