Design and Investigation of SiGe Heterojunction Based Charge Plasma Vertical TFET for Biosensing Application
Author:
Publisher
Springer Science and Business Media LLC
Subject
Electronic, Optical and Magnetic Materials
Link
https://link.springer.com/content/pdf/10.1007/s12633-021-01384-x.pdf
Reference35 articles.
1. Tanaka J, Toyabe T, Ihara S, Kimura S’i, Noda H, Itoh K (1993) Simulation of sub-0.1-mu m MOSFETs with completely suppressed short-channel effect. IEEE Electron Device Lett 14(8):396–399
2. Bricout P-H, Dubois E (1996) Short-channel effect immunity and current capability of sub-0.1-micron MOSFET's using a recessed channel. IEEE Trans Electron Devices 43(8):1251–1255
3. Singh, Shailendra, and Balwinder Raj (2018) Vertical tunnel-fet analysis for excessive low power digital applications. In: 2018 first international conference on secure cyber computing and communication (ICSCCC). IEEE, pp. 192–197.
4. Shockley W (1984) The path to the conception of the junction transistor. IEEE Trans Electron Devices 31(11):1523–1546
5. Singh, Shailendra, and Balwinder Raj (2020) Study of parametric variations on hetero-junction vertical t-shape TFET for suppressing ambipolar conduction.
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