Development of robust perovskite single crystal radiation detectors with high spectral resolution through synergetic trap deactivation and self‐healing

Wang, Lixiang; Song, Yilong; Li, Liqi; Tao, Liting; Yan, Mengdie; Bi, Weihui; Yang, Xueying; Sun, Yongjun; Dong, Qingfeng; Fang, Yanjun

doi:10.1002/inf2.12461

InfoMat

2023

DOI: 10.1002/inf2.12461

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Development of robust perovskite single crystal radiation detectors with high spectral resolution through synergetic trap deactivation and self‐healing

Lixiang Wang

Yilong Song

Liqi Li

et al.

Abstract: Organic–inorganic halide perovskite single crystals (SCs) are promising materials for detecting ionizing radiation owing to their outstanding photoelectric conversion capability and inexpensive solution processability. However, the accuracy and stability of the detectors have been limited due to the charge traps and defects in SCs, especially when operated under high‐precision photon‐counting mode for energy spectrum acquisition. Here, we proposed a trap freezing deactivation route, which obviously suppressed … Show more

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Cited by 4 publications

References 33 publications

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On‐Chip Room‐Temperature Operated Short‐Wavelength‐Infrared Si:S Photodetector with a Vertical Junction

Xiao,

Deng,

Zhang

et al. 2024

Adv Funct Materials

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Silicon (Si)‐based photodetectors are cost‐effective, eco‐friendly, and compatible with on‐chip complementary metal‐oxide‐semiconductor (CMOS) technology. However, expanding their photoresponse into the short‐wavelength‐infrared region beyond 1.1 µm remains challenging because of the intrinsic bandgap of Si. In this study, an ion implantation sulfur‐doped Si‐based infrared photodetector featuring a blocked impurity band (BIB) structure is investigated. The detector achieves an extended sub‐bandgap infrared response up to 2 µm through impurity band transitions, facilitated by the artificial creation of a deep‐level impurity band within the Si bandgap. The device exhibited a competitive photodetection effect with a high responsivity of 107.3 mA W−1 and an external quantum efficiency of 10.2%. Notably, the detector yielded an enhanced response speed with a raising time of 46 µs and a decay time of 135 µs at 1310 nm under room temperature. Finally, the versatile applications of this detector is presented in a multitude of scenarios encompassing material composition identification, multi‐band imaging, and optical communication. The proposed investigation not only proposed a method for Si‐based infrared detectors but also constituted a contribution to the advancement of silicon photonics.

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On‐Chip Room‐Temperature Operated Short‐Wavelength‐Infrared Si:S Photodetector with a Vertical Junction

Xiao,

Deng,

Zhang

et al. 2024

Adv Funct Materials

View full text Add to dashboard Cite

show abstract

Vacuum‐Assisted Growth of Single Crystal Perovskite Arrays toward Ultralow Dark Current Photodetectors

Zhang,

Ge,

Qin

et al. 2024

Adv Funct Materials

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Metal halide perovskites are widely employed in photodetectors (PDs) due to their exceptional photoelectric conversion ability. However, the high dark current induced by defect states during perovskite crystallization has not been well resolved, which enormously deteriorates the sensitivity of PD. Herein, a vacuum‐assisted template‐confined growth method is proposed to successfully fabricate high‐quality single crystal perovskite microwire arrays with low defect states and superior photoelectric characteristics. Experimentally and theoretically, it is proved that the fabricated perovskite microwire arrays PDs exhibit superior performance with commendable responsivity of 0.49 A W−1 and detectivity surpassing 1.21 × 1013 Jones, which profits from ultralow dark current of ≈200 fA at a 5 V bias. Particularly, the perovskite microwire arrays PD behaves the characteristics of flexible robust stability and high‐definition image recognition. This work provides a universal strategy for optimizing perovskite crystal quality and constructing high‐performance optoelectronic devices in many scenarios.

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Highly Porous Yet Transparent Mechanically Flexible Aerogels Realizing Solar-Thermal Regulatory Cooling

Lian,

Ding,

Liu

et al. 2024

Nano-Micro Lett.

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The demand for highly porous yet transparent aerogels with mechanical flexibility and solar-thermal dual-regulation for energy-saving windows is significant but challenging. Herein, a delaminated aerogel film (DAF) is fabricated through filtration-induced delaminated gelation and ambient drying. The delaminated gelation process involves the assembly of fluorinated cellulose nanofiber (FCNF) at the solid–liquid interface between the filter and the filtrate during filtration, resulting in the formation of lamellar FCNF hydrogels with strong intra-plane and weak interlayer hydrogen bonding. By exchanging the solvents from water to hexane, the hydrogen bonding in the FCNF hydrogel is further enhanced, enabling the formation of the DAF with intra-layer mesopores upon ambient drying. The resulting aerogel film is lightweight and ultra-flexible, which possesses desirable properties of high visible-light transmittance (91.0%), low thermal conductivity (33 mW m−1 K−1), and high atmospheric-window emissivity (90.1%). Furthermore, the DAF exhibits reduced surface energy and exceptional hydrophobicity due to the presence of fluorine-containing groups, enhancing its durability and UV resistance. Consequently, the DAF has demonstrated its potential as solar-thermal regulatory cooling window materials capable of simultaneously providing indoor lighting, thermal insulation, and daytime radiative cooling under direct sunlight. Significantly, the enclosed space protected by the DAF exhibits a temperature reduction of 2.6 °C compared to that shielded by conventional architectural glass.

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Development of robust perovskite single crystal radiation detectors with high spectral resolution through synergetic trap deactivation and self‐healing

Cited by 4 publications

References 33 publications

On‐Chip Room‐Temperature Operated Short‐Wavelength‐Infrared Si:S Photodetector with a Vertical Junction

On‐Chip Room‐Temperature Operated Short‐Wavelength‐Infrared Si:S Photodetector with a Vertical Junction

Vacuum‐Assisted Growth of Single Crystal Perovskite Arrays toward Ultralow Dark Current Photodetectors

Highly Porous Yet Transparent Mechanically Flexible Aerogels Realizing Solar-Thermal Regulatory Cooling

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