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Your search keyword '"Qin, Zilun"' showing total 22 results
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22 results on '"Qin, Zilun"'

1. Identifying optimal photovoltaic technologies for underwater applications

Author

Röhr, Jason A., Sartor, Ed, Duenow, Joel N., Qin, Zilun, Meng, Juan, Lipton, Jason, Maclean, Stephen A., Römer, Udo, Nielsen, Michael P., Zhao, Suling, Kong, Jaemin, Reese, Matthew O., Steiner, Myles A., Ekins-Daukes, N. J., and Taylor, André D.

Subjects
Physics - Applied Physics
Abstract

Improving solar energy collection in aquatic environments would allow for superior environmental monitoring and remote sensing, but the identification of optimal photovoltaic technologies for such applications is challenging as evaluation requires either field deployment or access to large water tanks. Here, we present a simple bench-top characterization technique that does not require direct access to water and therefore circumvents the need for field testing during initial trials of development. Employing LEDs to simulate underwater solar spectra at various depths, we compare Si and CdTe solar cells, two commercially available technologies, with GaInP cells, a technology with a wide band gap close to ideal for underwater solar harvesting. We use this method to show that while Si cells outperform both CdTe and GaInP under terrestrial AM1.5G solar irradiance, both CdTe and GaInP outperform Si at depths > 2 m, with GaInP cells operating with underwater efficiencies exceeding 51%., Comment: All supplementary information can be found at the end of the main text (before References); 17 pages; 4 main figures; Manuscript has been accepted into iScience

Published
2021

8. High‐Performance MAPbI3/PM6:Y6 Perovskite/Organic Hybrid Photodetectors with a Broadband Response.

Author

Zhang, Yu, Qin, Zilun, Nie, Weiqing, Li, Yaqian, Huo, Xiaomin, Song, Dandan, Qiao, Bo, Xu, Zheng, Wageh, Swelm, Al‐Ghamdi, Ahmed, and Zhao, Suling

Subjects
*PHOTODETECTORS, *PEROVSKITE, *NEAR infrared radiation, *QUANTUM efficiency, *VISIBLE spectra, *OPTICAL communications, *FULLERENE polymers, *HETEROJUNCTIONS
Abstract

Broadband photodetectors have a wide range of applications in the fields of biomedical sensing, environmental monitoring, optical communications, and space exploration. Since light absorbed by MAPbX3 perovskite materials is mainly located within the visible light region, the detection range of perovskite photodetectors is limited. To broaden the detection range for these types of photodetectors and, thus, enhance the number of possible application scenarios, a non‐fullerene acceptor Y6 is introduced that strongly absorbs light in the near‐infrared band and alongside PM6 forms an organic bulk heterojunction. This results in the expansion of the absorption range due to the formation of a supplementary absorption layer onto the perovskite layer. In this paper, the effects of the newly introduced organic layer on the device performance are studied. Through the synergistic effects of the perovskite and the organic layer, a high‐performance self‐powered perovskite/organic hybrid broadband photodetector can be realized, which contains a wide detection range from ultraviolet and visible light to near‐infrared (300–1000 nm). After its optimization, the device exhibits a high external quantum efficiency value that is as high as 80% in the visible–near‐infrared band, a short response time in the region of 803/698 ns, and a large linear dynamic range of 143 dB. [ABSTRACT FROM AUTHOR]

Published
2022
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10. Radiation hardness and abnormal photoresponse dynamics of the CH3NH3PbI3 perovskite photodetector

Author

Xiong, Guodong, primary, Qin, Zilun, additional, Li, Bo, additional, Wang, Lei, additional, Zhang, Xuewen, additional, Zheng, Zhongshan, additional, Zhu, Huiping, additional, Zhao, Suling, additional, Gao, Jiantou, additional, Li, Binhong, additional, Yang, Jianqun, additional, Li, Xingji, additional, Luo, Jiajun, additional, Han, Zhengsheng, additional, Liu, Xinyu, additional, and Zhao, Fazhan, additional

Published
2021
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14. Mechanism of transient inverse pulse current in hybrid perovskite photodetector induced by proton beam irradiation

Author

Xiong, Guodong, primary, Qin, Zilun, additional, Zhu, Huiping, additional, Zhao, Suling, additional, Wang, Lei, additional, Li, Bo, additional, Zhang, Xuewen, additional, Zheng, Zhongshan, additional, Gao, Jiantou, additional, Yang, Jianqun, additional, Li, Xingji, additional, Li, Binhong, additional, Huang, Yang, additional, Luo, Jiajun, additional, Han, Zhengsheng, additional, and Liu, Xinyu, additional

Published
2019
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17. Radiation hardness and abnormal photoresponse dynamics of the CH3NH3PbI3 perovskite photodetector.

Author

Xiong, Guodong, Qin, Zilun, Li, Bo, Wang, Lei, Zhang, Xuewen, Zheng, Zhongshan, Zhu, Huiping, Zhao, Suling, Gao, Jiantou, Li, Binhong, Yang, Jianqun, Li, Xingji, Luo, Jiajun, Han, Zhengsheng, Liu, Xinyu, and Zhao, Fazhan

Abstract

The effects of proton irradiation on the electrical and optical properties of hybrid perovskite photodetectors have been investigated in this paper. Our results reveal that no significant changes in the photoelectric properties of the perovskite photodetectors are observed when the proton fluence accumulates to 1 × 1012 p cm−2. However, with further increase of proton fluence, the photoelectric conversion efficiency of the perovskite photodetectors begins to decrease notably. This can be attributed to the introduction of deep defect levels within the bandgaps of the CH3NH3PbI3 active layer and the phenyl-C61-butyric acid methyl ester (PCBM) layer after proton irradiation. Based on time-resolved photoluminescence measurements, the deep defect levels in the active layer behave as nonradiative recombination centers, resulting in a reduction of carrier lifetime. According to our first-principles calculations, the deep defect levels in the PCBM layer act as electron trap centers, leading to an accumulation of photo-generated electrons. Most interestingly, when the proton fluence reaches 1 × 1014 p cm−2, a transient inverse current in the perovskite photodetectors is observed after stopping illumination. This abnormal phenomenon is due to the accumulation and release of electrons trapped in the PCBM layer, which can diffuse to the perovskite active layer and form the inverse current. [ABSTRACT FROM AUTHOR]

Published
2021
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