Origin of Irradiation Synergistic Effects in Silicon Bipolar Transistors

Song, Yu; Wei, Su‐Huai

doi:10.1021/acsaelm.0c00854

Cited by 12 publications

(6 citation statements)

References 37 publications

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“…After the same dosage of X-ray irradiation, the dark current of Au/CBD PbS/Au photoconductor is increased by ~2 times. We speculate that except charge carriers but atomic displacement would be generated in polycrystalline CBD PbS film by the ionizing radiation, which partly destroys lattice structure resulting in increased defects 35 – 37 . PbS CQDs are of large specific surface area and quasi-amorphous, of which the surface exists many unsaturated bonds and vacancies.…”

Section: Resultsmentioning

confidence: 98%

Flexible and broadband colloidal quantum dots photodiode array for pixel-level X-ray to near-infrared image fusion

Liu,

Shi

et al. 2023

Nat Commun

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Combining information from multispectral images into a fused image is informative and beneficial for human or machine perception. Currently, multiple photodetectors with different response bands are used, which require complicated algorithms and systems to solve the pixel and position mismatch problem. An ideal solution would be pixel-level multispectral image fusion, which involves multispectral image using the same photodetector and circumventing the mismatch problem. Here we presented the potential of pixel-level multispectral image fusion utilizing colloidal quantum dots photodiode array, with a broadband response range from X-ray to near infrared and excellent tolerance for bending and X-ray irradiation. The colloidal quantum dots photodiode array showed a specific detectivity exceeding 1012 Jones in visible and near infrared range and a favorable volume sensitivity of approximately 2 × 105 μC Gy−1 cm−3 for X-ray irradiation. To showcase the advantages of pixel-level multispectral image fusion, we imaged a capsule enfolding an iron wire and soft plastic, successfully revealing internal information through an X-ray to near infrared fused image.

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Section: Resultsmentioning

confidence: 98%

Flexible and broadband colloidal quantum dots photodiode array for pixel-level X-ray to near-infrared image fusion

Liu,

Shi

et al. 2023

Nat Commun

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“…Therefore, the continuous incidence of γ photons can greatly change the migration barriers of nearby defects. This impact is visible in experiments such as the carrier-enhanced migration of Si interstitial , and the irradiation synergistic effect in bipolar junction transistors , due to the continuous incidence of γ photons.…”

Section: Mechanisms Of γ-Ray-induced Annealing Of Pedsmentioning

confidence: 99%

Observation and Origin of Anomalous Early Recovery of Base Currents in Low-Dose-Rate γ-Ray-Irradiated PNP Transistors

Zhang,

Yang,

Zhou

et al. 2023

ACS Appl. Electron. Mater.

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We observe an anomalous early recovery behavior of base currents in silicon PNP transistors irradiated by 60 Co γ-rays at a dose rate below 1 mrad(Si)/s, which, however, disappears for a higher dose rate. The physical origin of this effect is thoroughly investigated by combining methods of defect concentration measurement, first-principles calculation, and kinetic modeling. The concentrations of interface traps and oxide-trapped charges in these transistors are found to increase monotonically as the total dose increases. Meanwhile, first-principles calculations show that γ-induced concentrated carrier clusters in n-type Si can greatly promote the diffusion of nearby electrically active vacancy-oxygen (VO) defect complexes. Therefore, the observed anomalous behavior of base current is attributed to an irradiation-induced annealing of preexisting defects in Si at room temperature because moving VO can encounter interstitial oxygen atoms and transform into electrically inactive VO 2 . A kinetic model is derived for the observable base current by combining this mechanism with the ionization-induced buildup of defects in the SiO 2 −Si structure. It can uniformly describe the anomalous behavior at low dose rates and the normal behavior at high dose rates by considering the difference in the time of carrier action on the defect diffusion. Our work demonstrates that low-dose-rate γ irradiation is an effective method to realize defect engineering in semiconductors.

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“…For each dose rate three samples are adopted to include sample‐to‐sample variability. [ 69–71 ] Test of every sample is completed within half an hour after it was taken out from the irradiation field; this ensures that the annealing of

{E^{'}}_{γ}

and P b can be ignored. [ 2 ]…”

Section: Experimental Verification Of the Proposed Concepts And Modelmentioning

confidence: 99%

General Model for Defect Dynamics in Ionizing‐Irradiated SiO₂‐Si Structures

Song

Zhang

Cai

et al. 2022

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Origin of Irradiation Synergistic Effects in Silicon Bipolar Transistors

Cited by 12 publications

References 37 publications

Flexible and broadband colloidal quantum dots photodiode array for pixel-level X-ray to near-infrared image fusion

Flexible and broadband colloidal quantum dots photodiode array for pixel-level X-ray to near-infrared image fusion

Observation and Origin of Anomalous Early Recovery of Base Currents in Low-Dose-Rate γ-Ray-Irradiated PNP Transistors

General Model for Defect Dynamics in Ionizing‐Irradiated SiO₂‐Si Structures

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Origin of Irradiation Synergistic Effects in Silicon Bipolar Transistors

Cited by 12 publications

References 37 publications

Flexible and broadband colloidal quantum dots photodiode array for pixel-level X-ray to near-infrared image fusion

Flexible and broadband colloidal quantum dots photodiode array for pixel-level X-ray to near-infrared image fusion

Observation and Origin of Anomalous Early Recovery of Base Currents in Low-Dose-Rate γ-Ray-Irradiated PNP Transistors

General Model for Defect Dynamics in Ionizing‐Irradiated SiO2‐Si Structures

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General Model for Defect Dynamics in Ionizing‐Irradiated SiO₂‐Si Structures