Flexible real‐time skin dosimeter based on a thin‐film copper indium gallium selenide solar cell for electron radiation therapy

Shin, Dongseok; Kim, Sang Woo; Rah, Jeong-Eun; Lee, Se Byeong; Lim, Young Kyung; Jeong, Jae‐Weon; Kim, Hak‐Soo; Shin, Dongho; Son, Jaeman

doi:10.1002/mp.16191

Cited by 3 publications

(9 citation statements)

References 55 publications

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“…The nature of the aforementioned thermal effects has not been fully elucidated. The authors of [7] explain their presence as a result of the processes of glass splitting of the amorphous phase of the samples.…”

Section: Methods Of Thermoluminescence Measurements Of Thin-film Stru...mentioning

confidence: 99%

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New structural–optical effect in LiF–Li₂B₄O₇ thin‐film structures in the crystallization

Maslyuk,

Pop,

Holovey

et al. 2024

Luminescence

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The effect of optical radiation during the phase transition from the amorphous to the crystalline state of matter was investigated for the first time. The results were obtained on nanoscale films of (LiF)x(Li2B4O7)1‐x compositions by sputtering on cold Ni substrates. The starting materials for films were chosen due to their wide use for tissue‐equivalent ionizing radiation dosimetry. It is shown that the detected thermoluminescence effect is sensitive to the thickness of the films. The paper compares the results of these studies with the study of the thermoluminescence characteristics of films irradiated by an M‐30 microtron with bremsstrahlung radiation with a maximum energy of 6 MeV. The absorbed radiation dose was 1 kGy. Differences in the luminescence characteristics of irradiated and nonirradiated films were revealed. The nature of the demonstrated structural–optical effect is discussed.

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Section: Methods Of Thermoluminescence Measurements Of Thin-film Stru...mentioning

confidence: 99%

“…The study of such phenomena is of particular interest in connection with the prospects of using thin-film structures for dosimetric measurements [5][6][7][8]. Their advantages are compactness, suitability for measuring the absorbed dose in thin layers, particularly in the skin, and so forth.…”

Section: Introductionmentioning

confidence: 99%

New structural–optical effect in LiF–Li₂B₄O₇ thin‐film structures in the crystallization

Maslyuk,

Pop,

Holovey

et al. 2024

Luminescence

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“…43 Shin et al reported that flexible CIGS solar cells can be used as a skin dosimeter for 6− 16 MeV electron beam therapy. 44 Notably, the energy of electrons typically used in such high-energy electron beam therapy devices lies in the range of 6−10 MeV. Thus, further investigation is required to clarify the effects of electron beam irradiation on perovskite and the corresponding mechanisms, especially beyond 1 MeV.…”

Section: ■ Introductionmentioning

confidence: 99%

“…For example, Jeong et al demonstrated that a-Si solar cells can be applied to electron beam therapy as a real-time in vivo dosimetry system in the electron energy range of 6–20 MeV . Shin et al reported that flexible CIGS solar cells can be used as a skin dosimeter for 6–16 MeV electron beam therapy . Notably, the energy of electrons typically used in such high-energy electron beam therapy devices lies in the range of 6–10 MeV.…”

Section: Introductionmentioning

confidence: 99%

Radiation Tolerance of Organohalide-Based Perovskite Solar Cells under 6 MeV Electron Beam Irradiation

Kim,

Lee,

Shah

et al. 2024

J. Phys. Chem. C

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This study presents a preliminary investigation of the application of MAPbI 3 perovskite solar cells (PSCs) as dosimeters for space and medical purposes. Specifically, it explores the effects of 6 MeV electron beam exposure on the performance and degradation mechanisms of PSC devices. The study also employs crystallographic, optical, and simulation-based analyzes to gain insights into the degradation process. The findings of this research lay the groundwork for the development of an advanced radiation detection structure, combining a scintillator with a photocounting PSC device, as a potential replacement for existing silicon photomultipliers in the future. The PSC devices exhibit an initial power conversion efficiency of approximately 14%. However, under electron fluences ranging from 3 to 21 kGy, a gradual degradation is observed, characterized by a decline in open-circuit voltage and short-circuit current. Beyond the 9 kGy threshold, the device performance deteriorates significantly, with a 52% decrease compared with the initial performance, which is primarily attributed to a decrease in the fill factor. Through X-ray diffraction, time-resolved photoluminescence, and density functional theory simulations, the research uncovers that continuous electron beam exposure induces the formation of crystallographic defects and shallow traps, leading to the gradual deterioration of device performance postirradiation.

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“…A defect is considered to be shallow when its energy level is very close to the minima of a conduction band or very close to maxima of a valence band [8], otherwise it is regarded as a deep defect. Deep defects are very common in many doped materials [8,9,10]. They are considered to be free carrier traps known to capture charge carriers that are introduced through doping [9].…”

Section: Introductionmentioning

confidence: 99%

Influence of Bulk Defect Density on the Efficiency of CIGS Based Photovoltaic Cell/Solar Cell

Orori

2023

JOBARI

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In CIGS-based thin-films, bulk defects are believed to represent disturbances either in a regular, periodical arrangement within the atoms or within the crystalline media which influence sheet resistivity. In this study, first a resistivity measurements were carried out on CIGS thin films using the Van Der Pauw technique. Then, a comparison between two Van Der Pauw four-point measurement configurations (aligned and square) were done which showed that the square configuration was the most appropriate configuration that can be recommended to measure thin film sheet resistance of CIGS films. Finally, a numerical simulation using SCAPS-1D software was used to study the influence of bulk defect density in a CIGS films as an absorber layer in a model photocell. Using the simulated data, three operating zones for the model photocell were identified depending based on the concentration of its bulk defect density. The influence of bulk defects on thickness, band gap and doping were then analyzed. It was revealed that when the bulk defect density was less than 5×1013 cm-3 for an absorber of thickness in the order of over 3 μm, a band gap between 1.3 eV-1.4 eV and acceptor density of 1016 cm-3were the optimal operating conditions for the model photocell. It was concluded that the CICS layer used as an absorber can be improved if its bulk defect density is tuned to optimal levels.

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Flexible real‐time skin dosimeter based on a thin‐film copper indium gallium selenide solar cell for electron radiation therapy

Cited by 3 publications

References 55 publications

New structural–optical effect in LiF–Li₂B₄O₇ thin‐film structures in the crystallization

New structural–optical effect in LiF–Li₂B₄O₇ thin‐film structures in the crystallization

Radiation Tolerance of Organohalide-Based Perovskite Solar Cells under 6 MeV Electron Beam Irradiation

Influence of Bulk Defect Density on the Efficiency of CIGS Based Photovoltaic Cell/Solar Cell

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Flexible real‐time skin dosimeter based on a thin‐film copper indium gallium selenide solar cell for electron radiation therapy

Cited by 3 publications

References 55 publications

New structural–optical effect in LiF–Li2B4O7 thin‐film structures in the crystallization

New structural–optical effect in LiF–Li2B4O7 thin‐film structures in the crystallization

Radiation Tolerance of Organohalide-Based Perovskite Solar Cells under 6 MeV Electron Beam Irradiation

Influence of Bulk Defect Density on the Efficiency of CIGS Based Photovoltaic Cell/Solar Cell

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New structural–optical effect in LiF–Li₂B₄O₇ thin‐film structures in the crystallization

New structural–optical effect in LiF–Li₂B₄O₇ thin‐film structures in the crystallization