Preparation and Photoelectric Properties Research on Ge-based Phototransistor Based on Memristor Structure

XU Shun; CHEN Bing

doi:10.16818/j.issn1001-5868.2023020701

Semiconductor Optoelectronics, Volume. 44, Issue 4, 543(2023)

Preparation and Photoelectric Properties Research on Ge-based Phototransistor Based on Memristor Structure

XU Shun^1,2、* and CHEN Bing³

Author Affiliations

¹[in Chinese]

²[in Chinese]

³[in Chinese]

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References(17)

[1] [1] Smith S D. Optical bistability, photonic logic, and optical computation[J]. Appl. Opt., 1986, 25(10): 1550-1564.

[2] [2] Yu H, Kim D, Lee J, et al. High-gain infrared-to-visible upconversion light-emitting phototransistors[J]. Nature Photon., 2016, 10: 129-134.

[3] [3] Konstantatos G, Badioli M, Gaudreau L, et al. Hybrid graphene-quantum dot phototransistors with ultrahigh gain[J]. Nature Nanotechnol., 2012, 7: 363-368.

[4] [4] Liu X, Dong G, Duan L, et al. Programmable and erasable pentacene/Ta2O5 phototransistor memory with improved retention time[J]. IEEE Electr. Dev. Lett., 2014, 35(7): 741-743.

[5] [5] Liu X, Guo S, Zou C, et al. Punch-through enhanced phototransistor fabricated in standard CMOS process[J]. IEEE Electr. Dev. Lett., 2009, 30(3): 272-274.

[6] [6] Philipp H R, Ehrenreich H. Optical properties of semiconductors[J]. Phys. Rev., 1963, 129(4): 1550.

[7] [7] Tauc J, Grigorovici R, Vancu A. Optical properties and electronic structure of amorphous germanium[J]. Phys. Status Solidi B, 1966, 15: 627-637.

[8] [8] Luryi S, Pearsall T P, Temkin H, et al. Waveguide infrared photodetectors on a silicon chip[J]. IEEE Electr. Dev. Lett., 1986, 7(2): 104-107.

[9] [9] Torres-J A, Gutierrez-D E A. A planar amorphous Si1-x/Gex separated absorption multiplication avalanche photo diode[J]. IEEE Electr. Dev. Lett., 1997, 18(11): 568-570.

[12] [12] Takagi S, Irisawa T, Tezuka T, et al. Carrier-transport-enhanced channel CMOS for improved power consumption and performance[J]. IEEE Trans. Electron Device, 2008, 55(1): 21-39.

[13] [13] Chen B, Zhang Y, Liu W, et al. Ge-based asymmetric RRAM enable 8F2 content addressable memory[J]. IEEE Electr. Dev. Lett., 2018, 39(9): 1294-1297.

[14] [14] Zhang R, Tang X, Yu X, et al. Aggressive EOT scaling of Ge pMOSFETs with HfO2/AlOx/GeOx gate-stacks fabricated by ozone post-oxidation[J]. IEEE Electr. Dev. Lett., 2016, 37(7): 831-834.

[15] [15] Gao B, Sun B, Zhang H, et al. Unified physical model of bipolar oxide-based resistive switching memory[J]. IEEE Electr. Dev. Lett., 2009, 30(12): 1326-1328.

[17] [17] Strukov D, Snider G, Stewart D, et al. The missing memristor found[J]. Nature, 2018, 453: 80-83.

[18] [18] Philip Wong H S, Lee H Y, Yu S M, et al. Metal-oxide RRAM[J]. Proc. of IEEE, 2012, 100(6): 1951-1970.

[21] [21] Waser R, Dittmann R, Staikov G, et al. Redox-based resistive switching memories nanoionic mechanisms, prospects, and challenges[J]. Adv. Mater., 2009, 21(25/26): 2632-2663.

[22] [22] Chen Y Y, Goux L, Clima S, et al. Endurance/retention trade-off on HfO2/Metal cap 1T1R bipolar RRAM[J]. IEEE Trans. Electron Device, 2013, 60(3): 1114-1121.

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XU Shun, CHEN Bing. Preparation and Photoelectric Properties Research on Ge-based Phototransistor Based on Memristor Structure[J]. Semiconductor Optoelectronics, 2023, 44(4): 543

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Paper Information

Category:

Received: Feb. 7, 2023

Accepted: --

Published Online: Nov. 26, 2023

The Author Email: Shun XU (202210501019@mails.zstu.edu.cn)

DOI:10.16818/j.issn1001-5868.2023020701

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology