Origin of Current Variations in Ultrathin Bipolar Junction Transistors Under Bending Stress

Origin of Current Variations in Ultrathin Bipolar Junction Transistors Under Bending Stress

The dc characteristics variations of ultrathin flexible high-speed polysilicon emitter bipolar transistors under uniaxial tensile bending stress have been demonstrated, which shows an apparent increase of base current while a slight decrease of collector current, resulting in the degradation of curr...

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Veröffentlicht in:IEEE transactions on electron devices 2023-09, Vol.70 (9), p.4532-4537
Hauptverfasser: Hong, Min, Zhang, Peijian, Chen, Xian, Yi, Xiaohui, Tang, Xinyue, Han, Weimin, Liu, Jiao, Qiu, Sheng, Luo, Ting, Liu, Jian, Wang, Peng, Fu, Xiaojun, Chen, Chao, Yang, Yonghui
Format: Artikel
Sprache:eng
Schlagworte:
Bending
Bending stress
Bipolar transistors
Carrier density
Carrier mobility
Emitters
intrinsic carrier concentration
Junction transistors
Junctions
LF noise
Minority carriers
mobility
piezojunction effect
Piezoresistance
Polysilicon
Semiconductor devices
Silicon
Silicon dioxide
Stress
Tensile stress
Transistors
ultrathin bipolar transistor
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Zusammenfassung:The dc characteristics variations of ultrathin flexible high-speed polysilicon emitter bipolar transistors under uniaxial tensile bending stress have been demonstrated, which shows an apparent increase of base current while a slight decrease of collector current, resulting in the degradation of current gain. Such variations are ascribed to the stress-induced changes in minority carrier mobility and intrinsic carrier concentration, as clarified by the piezojunction effect theory. The base current variation is also related to the generation of recombination traps at poly/crystalline-silicon (poly/c-Si) and SiO2/Si interfaces within the quasineutral emitter and E-B junction space-charge region, respectively, with the former dominating at the operation bias, which however does not affect the low-frequency noise.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2023.3294463