Your search keyword '"He, Yihui"' showing total 4 results

1. The Total Ionizing Dose Effects on Perovskite CsPbBr 3 Semiconductor Detector.

Author

Ma, Wuying, Liu, Linyue, Qin, Haoming, Gao, Runlong, He, Baoping, Gou, Shilong, He, Yihui, and Ouyang, Xiaoping

Subjects

SEMICONDUCTOR detectors, PEROVSKITE, X-ray detection, DETECTORS, DOSE-response relationship (Radiation)

Abstract

Perovskite CsPbBr3 semiconductors exhibit unusually high defect tolerance leading to outstanding and unique optoelectronic properties, demonstrating strong potential for γ-radiation and X-ray detection at room temperature. However, the total dose effects of the perovskite CsPbBr3 must be considered when working in a long-term radiation environment. In this work, the Schottky type of perovskite CsPbBr3 detector was fabricated. Their electrical characteristics and γ-ray response were investigated before and after 60Co γ ray irradiation with 100 and 200 krad (Si) doses. The γ-ray response of the Schottky-type planar CsPbBr3 detector degrades significantly with the increase in total dose. At the total dose of 200 krad(Si), the spectral resolving ability to γ-ray response of the CsPbBr3 detector has disappeared. However, with annealing at room temperature for one week, the device's performance was partially recovered. Therefore, these results indicate that the total dose effects strongly influence the detector performance of the perovskite CsPbBr3 semiconductor. Notably, it is concluded that the radiation-induced defects are not permanent, which could be mitigated even at room temperature. We believe this work could guide the development of perovskite detectors, especially under harsh radiation conditions. [ABSTRACT FROM AUTHOR]

Published

2023

2. Perovskite CsPbBr 3 Single Crystal Detector for High Flux X-Ray Photon Counting.

Author

Pan, Lei, He, Yihui, Klepov, Vladislav V., De Siena, Michael C., and Kanatzidis, Mercouri G.

Subjects

*PHOTON counting, *PHOTON flux, *SINGLE crystals, *SEMICONDUCTOR detectors, *DETECTORS, *PHOTON detectors, *NOISE

Abstract

X-ray photon-counting detectors capable of resolving the energies of single X-ray photons are critical in medical imaging, and a high count rate is essential for photon-counting detectors. Here, we report the performance of the perovskite CsPbBr3 single-crystal semiconductor detector for X-ray photon counting. The CsPbBr3 detector noise floor, energy response linearity, energy resolution, count rate, and polarization were evaluated. By fine-tuning the detector working conditions, our CsPbBr3 detector with a planar electrode can count an incident X-ray photon rate of ~0.099 and ~0.336 Mcps/pixel at 10% and 30% deadtime loss, respectively, with corresponding energy resolutions of ~18% at 59.5 keV and ~12% at 122 keV at same pulse processing conditions. We also demonstrated that our CsPbBr3 detectors show negligible polarization under an X-ray flux of ~0.45 M photons/s/mm2 for the typical timescale of multiple clinical X-ray scans, such as 1 s– 100 s. Our evaluation demonstrates the high potential of CsPbBr3 detectors for X-ray photon-counting applications in medical and industrial diagnostics with a lower cost than the current state-of-the-art. [ABSTRACT FROM AUTHOR]

Published

2022

3. Thermoplastic Membranes Incorporating Semiconductive Metal–Organic Frameworks: An Advance on Flexible X‐ray Detectors.

Author

Liang, Chengyu, Zhang, Shitong, Cheng, Liwei, Xie, Jian, Zhai, Fuwan, He, Yihui, Wang, Yaxing, Chai, Zhifang, and Wang, Shuao

Subjects

METAL-organic frameworks, FLEXIBLE electronics, DETECTORS, CHEMICAL detectors, X-rays, THERMOPLASTICS, POLYVINYLIDENE fluoride

Abstract

Semiconductive metal–organic frameworks (MOFs) have emerged in applications such as chemical sensors, electrocatalysts, energy storage materials, and electronic devices. However, examples of semiconductive MOFs within flexible electronics have not been reported. We present flexible X‐ray detectors prepared by thermoplastic dispersal of a semiconductive MOF (SCU‐13) through a commercially available polymer, poly(vinylidene fluoride). The flexible detectors exhibit efficient X‐ray‐to‐electric current conversion with enhanced charge‐carrier mobility and low trap density compared to pelleted devices. A high X‐ray detection sensitivity of 65.86 μCGyair−1 cm−2 was achieved, which outperforms other pelleted devices and commercial flexible X‐ray detectors. We demonstrate that the MOF‐based flexible detectors can be operated at multiple bending angles without a deterioration in detection performance. As a proof‐of‐concept, an X‐ray phase contrast under bending conditions was constructed using a 5×5 pixelated MOF‐based imager. [ABSTRACT FROM AUTHOR]

Published

2020

4. Characterization of detector-grade CdZnTe:Al crystals obtained by annealing

Author

Yu, Pengfei, He, Yihui, Wang, Tao, and Jie, Wanqi

Subjects

*CADMIUM compounds, *ANNEALING of crystals, *SEMICONDUCTORS, *DETECTORS, *TELLURIUM, *ELECTRIC resistance

Abstract

Abstract: Detector-grade CdZnTe:Al (CZT:Al) crystals were obtained by introducing Te antisites after annealing under Te atmosphere. Characterizations revealed that no inclusions were observed in both the as-grown and the annealed crystals. The resistivity and IR transmittance of annealed CZT:Al crystals were greatly enhanced. Moreover, (D 0,X) peak representing the quality of crystal appeared in PL spectrum of annealed crystal. 120h annealed CZT:Al crystal with the energy resolution of 8.19% and μτ value of 1.18×10−3 cm2/V had the best detector performance. [Copyright &y& Elsevier]

Published

2011