2022
DOI: 10.1002/aelm.202201015
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Band‐to‐Band Tunneling Control by External Forces: A Key Principle and Applications

Abstract: Band‐to‐band tunneling (BTBT) devices with superior subthreshold swing directly related to on/off switching speed and power consumption efficiency have emerged as a breakthrough of the limitation in conventional metal‐oxide‐semiconductor field‐effect transistors (MOSFETs). However, it is difficult to reach a higher level of electrical characteristics with only a combination of materials based on their intrinsic characteristics. External forces, such as electric fields, light, and temperature, can modulate the … Show more

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Cited by 9 publications
(10 citation statements)
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“…368 In a type III p-n heterojunction, the proximity of the conduction band (CB) in the n-type region to the VB in the p-type region facilitates electron tunneling from VB to CB via BTBT process. 368 As a result, the BTBT process generates high-energy electrons ( i.e. , band-to-band hot electrons, BBHE) that can be trapped by the FG layer.…”
Section: Porous Crystalline Materials For Memoriesmentioning
confidence: 99%
See 3 more Smart Citations
“…368 In a type III p-n heterojunction, the proximity of the conduction band (CB) in the n-type region to the VB in the p-type region facilitates electron tunneling from VB to CB via BTBT process. 368 As a result, the BTBT process generates high-energy electrons ( i.e. , band-to-band hot electrons, BBHE) that can be trapped by the FG layer.…”
Section: Porous Crystalline Materials For Memoriesmentioning
confidence: 99%
“…Band-to-band tunneling (BTBT) provides an alternative explanation for the programming/erasing process of flash memory, which is quantum tunneling in essence rather than thermionic transportation, and takes place in flash memory with type III heterojunction. 368 In a type III p-n heterojunction, the proximity of the conduction band (CB) in the n-type region to the VB in the p-type region facilitates electron tunneling from VB to CB via BTBT process. 368 As a result, the BTBT process generates high-energy electrons (i.e., band-to-band hot electrons, BBHE) that can be trapped by the FG layer.…”
Section: Porous Crystalline Materials For Memoriesmentioning
confidence: 99%
See 2 more Smart Citations
“…3 NDR devices are based on the transition of carrier transport from quantum mechanical tunnelling to thermionic emission by sweeping the applied voltage. 4 To use NDR for functional devices, the output characteristics of the transistor in the NDR regime should have a high peak current (I peak ) and a high peakto-valley current ratio (PVCR). The importance of high I peak and high PVCR lies in their role in enabling efficient signal amplification, reliable switching behavior, and optimization of device performance for various high-frequency applications.…”
mentioning
confidence: 99%