Emerging Perovskite Materials with Different Nanostructures for Photodetectors

Gu, Hao; Chen, Shan‐Ci; Zheng, Qingdong

doi:10.1002/adom.202001637

Cited by 48 publications

(42 citation statements)

References 134 publications

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“…There have been some reviews on nanostructured perovskite-based photodetectors. Gu et al [45] focus on the effect of elemental composition and dimensionality of the perovskite materials on photodetector performance. Wang et al [46] systematically summarized the synthesis, optoelectronic properties, and performance of photodetectors based on low-dimensional perovskites.…”

Section: Introductionmentioning

confidence: 99%

“…In this study, we will review research results in nanostructured perovskite-based photodetectors, focusing on the photodetection performance and potential mechanism. It is well known that the electrons of nanostructured perovskite are quantum confined in three directions for 0D QDs, two directions for 1D nanowires (NWs), and one direction for 2D nanosheets [45]. The band structures of the nanostructured perovskite could be heavily influenced by the quantum size effect induced by dimensionality constraint, and thus deeply affect the optoelectronic properties.…”

Section: Introductionmentioning

confidence: 99%

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High-Performance Photodetectors Based on Nanostructured Perovskites

et al. 2021

Nanomaterials

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In recent years, high-performance photodetectors have attracted wide attention because of their important applications including imaging, spectroscopy, fiber-optic communications, remote control, chemical/biological sensing and so on. Nanostructured perovskites are extremely suitable for detective applications with their long carrier lifetime, high carrier mobility, facile synthesis, and beneficial to device miniaturization. Because the structure of the device and the dimension of nanostructured perovskite have a profound impact on the performance of photodetector, we divide nanostructured perovskite into 2D, 1D, and 0D, and review their applications in photodetector (including photoconductor, phototransistor, and photodiode), respectively. The devices exhibit high performance with high photoresponsivity, large external quantum efficiency (EQE), large gain, high detectivity, and fast response time. The intriguing properties suggest that nanostructured perovskites have a great potential in photodetection.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

High-Performance Photodetectors Based on Nanostructured Perovskites

et al. 2021

Nanomaterials

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“…Metal‐halide perovskite photodetectors have emerged as a highly attractive alternative to conventional photodetector technologies for the realization of ubiquitous light sensing for the ongoing Internet of Things (IoT) revolution. [ 1–4 ] In particular, lead‐iodide‐based perovskites are a rising star for diverse optoelectronic applications due to their broad spectral absorption, high charge carrier mobility, long carrier lifetimes, small exciton binding energy, and long exciton diffusion lengths. [ 1–6 ] Although lead‐based perovskites deliver high optoelectronic and photodetector performance, they raise toxicity concerns due to their lead content.…”

Section: Introductionmentioning

confidence: 99%

“…[ 1–4 ] In particular, lead‐iodide‐based perovskites are a rising star for diverse optoelectronic applications due to their broad spectral absorption, high charge carrier mobility, long carrier lifetimes, small exciton binding energy, and long exciton diffusion lengths. [ 1–6 ] Although lead‐based perovskites deliver high optoelectronic and photodetector performance, they raise toxicity concerns due to their lead content. [ 7–9 ] This has motivated the search for low‐toxicity and stable lead‐free perovskite‐inspired materials (PIMs) with similar optoelectronic properties.…”

Section: Introductionmentioning

confidence: 99%

“…[ 7–11 ] Specifically, in the context of photodetector applications, it is particularly important to develop lead‐free PIMs that deliver photodetectors with high responsivity and excellent stability and that are fabricated with a scalable process. [ 1–4,7,12 ] Moreover, with a view to seamlessly embedding such photodetectors in everyday objects and environments for the ongoing Internet of Things (IoT) revolution, it is desirable to develop lead‐free perovskite‐inspired photodetectors that can operate with a bias voltage of 0 V. Indeed, this would enable batteryless, self‐powered operation, ultimately delivering easy‐to‐use and environmentally friendly light sensing. [ 1–4,7,12 ]…”

Section: Introductionmentioning

confidence: 99%

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Engineering Chemical Vapor Deposition for Lead‐Free Perovskite‐Inspired MA₃Bi₂I₉ Self‐Powered Photodetectors with High Performance and Stability

Vuong

Pammi

Pasupuleti

et al. 2021

Advanced Optical Materials

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Lead‐free perovskite‐inspired materials (PIMs) have attracted great interest in optoelectronics, as they feature electronic properties similar to mainstream lead‐based perovskites but are not burdened by the same toxicity issues. However, PIM photodetectors to date have not delivered efficiencies and stability on par with benchmark technologies. With a focus on methylammonium bismuth iodide (MA3Bi2I9)—a prominent lead‐free PIM—this study overcomes this challenge by growing the photoactive material through an engineered chemical vapor deposition (CVD) approach. While the commonplace one‐tube (1T)‐CVD approach delivers films with disconnected grains and large pinholes, a two‐tube (2T)‐CVD approach is developed that enables the growth of smoother films with superior, compact morphology. The considerable optoelectronic potential of 2T‐CVD MA3Bi2I9 films is demonstrated by realizing high‐performance self‐powered photodetectors, which deliver a responsivity and specific detectivity as high as 0.28 A W–1 and 8.8 × 1012 Jones, respectively, under UV illumination—i.e., approximately twice as large as the 1T‐CVD counterparts. Further, nonencapsulated 2T‐CVD devices exhibit considerable long‐term moisture stability, with an attenuation of their photoresponse of ≤3% over 100 days. These results demonstrate that 2T‐CVD offers a promising platform that can catalyze the development of high‐performance lead‐free perovskite‐inspired optoelectronics.

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Synthesis, Properties, and Applications of Metal HalidePerovskite‐BasedNanomaterials

Sun¹,

Zhao²,

Shu³

et al. 2022

Functional Nanomaterials

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Emerging Perovskite Materials with Different Nanostructures for Photodetectors

Cited by 48 publications

References 134 publications

High-Performance Photodetectors Based on Nanostructured Perovskites

High-Performance Photodetectors Based on Nanostructured Perovskites

Engineering Chemical Vapor Deposition for Lead‐Free Perovskite‐Inspired MA₃Bi₂I₉ Self‐Powered Photodetectors with High Performance and Stability

Synthesis, Properties, and Applications of Metal HalidePerovskite‐BasedNanomaterials

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Emerging Perovskite Materials with Different Nanostructures for Photodetectors

Cited by 48 publications

References 134 publications

High-Performance Photodetectors Based on Nanostructured Perovskites

High-Performance Photodetectors Based on Nanostructured Perovskites

Engineering Chemical Vapor Deposition for Lead‐Free Perovskite‐Inspired MA3Bi2I9 Self‐Powered Photodetectors with High Performance and Stability

Synthesis, Properties, and Applications of Metal HalidePerovskite‐BasedNanomaterials

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Engineering Chemical Vapor Deposition for Lead‐Free Perovskite‐Inspired MA₃Bi₂I₉ Self‐Powered Photodetectors with High Performance and Stability