A Solution-Processed High-Performance Phototransistor based on a Perovskite Composite with Chemically Modified Graphenes

Liu Qian; Yilin Sun; Mingmao Wu; Dan Xie; Liming Ding; Gaoquan Shi

doi:10.1002/adma.201606175

A Solution-Processed High-Performance Phototransistor based on a Perovskite Composite with Chemically Modified Graphenes

Liu Qian, Yilin Sun, Mingmao Wu, Dan Xie^*, Liming Ding, Gaoquan Shi

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摘要

Phototransistors with a structure of a nitrogen-doped graphene quantum dots (NGQDs)–perovskite composite layer and a mildly reduced graphene oxide (mrGO) layer are fabricated through a solution-processing method. This hybrid phototransistor exhibits broad detection range (from 365 to 940 nm), high photoresponsivity (1.92 × 10⁴ A W⁻¹), and rapid response to light on–off (≈10 ms). NGQDs offer an effective and fast path for electron transfer from the perovskite to the mrGO, resulting in the improvement of photocurrent and photoswitching characteristics. The high photoresponsivity can also be ascribed to a photogating effect in the device. In addition, the phototransistor shows good stability with poly(methyl methacrylate) encapsulation, and can maintain 85% of its initial performance for 20 d in ambient air.

源语言	英语
文章编号	1606175
期刊	Advanced Materials
卷	29
期	22
DOI	https://doi.org/10.1002/adma.201606175
出版状态	已出版 - 13 6月 2017
已对外发布	是

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title = "A Solution-Processed High-Performance Phototransistor based on a Perovskite Composite with Chemically Modified Graphenes",

abstract = "Phototransistors with a structure of a nitrogen-doped graphene quantum dots (NGQDs)–perovskite composite layer and a mildly reduced graphene oxide (mrGO) layer are fabricated through a solution-processing method. This hybrid phototransistor exhibits broad detection range (from 365 to 940 nm), high photoresponsivity (1.92 × 104 A W−1), and rapid response to light on–off (≈10 ms). NGQDs offer an effective and fast path for electron transfer from the perovskite to the mrGO, resulting in the improvement of photocurrent and photoswitching characteristics. The high photoresponsivity can also be ascribed to a photogating effect in the device. In addition, the phototransistor shows good stability with poly(methyl methacrylate) encapsulation, and can maintain 85% of its initial performance for 20 d in ambient air.",

keywords = "graphene oxide, perovskites, phototransistors, quantum dots",

author = "Liu Qian and Yilin Sun and Mingmao Wu and Dan Xie and Liming Ding and Gaoquan Shi",

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T1 - A Solution-Processed High-Performance Phototransistor based on a Perovskite Composite with Chemically Modified Graphenes

AU - Qian, Liu

AU - Sun, Yilin

AU - Wu, Mingmao

AU - Xie, Dan

AU - Ding, Liming

AU - Shi, Gaoquan

PY - 2017/6/13

Y1 - 2017/6/13

N2 - Phototransistors with a structure of a nitrogen-doped graphene quantum dots (NGQDs)–perovskite composite layer and a mildly reduced graphene oxide (mrGO) layer are fabricated through a solution-processing method. This hybrid phototransistor exhibits broad detection range (from 365 to 940 nm), high photoresponsivity (1.92 × 104 A W−1), and rapid response to light on–off (≈10 ms). NGQDs offer an effective and fast path for electron transfer from the perovskite to the mrGO, resulting in the improvement of photocurrent and photoswitching characteristics. The high photoresponsivity can also be ascribed to a photogating effect in the device. In addition, the phototransistor shows good stability with poly(methyl methacrylate) encapsulation, and can maintain 85% of its initial performance for 20 d in ambient air.

AB - Phototransistors with a structure of a nitrogen-doped graphene quantum dots (NGQDs)–perovskite composite layer and a mildly reduced graphene oxide (mrGO) layer are fabricated through a solution-processing method. This hybrid phototransistor exhibits broad detection range (from 365 to 940 nm), high photoresponsivity (1.92 × 104 A W−1), and rapid response to light on–off (≈10 ms). NGQDs offer an effective and fast path for electron transfer from the perovskite to the mrGO, resulting in the improvement of photocurrent and photoswitching characteristics. The high photoresponsivity can also be ascribed to a photogating effect in the device. In addition, the phototransistor shows good stability with poly(methyl methacrylate) encapsulation, and can maintain 85% of its initial performance for 20 d in ambient air.

KW - graphene oxide

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A Solution-Processed High-Performance Phototransistor based on a Perovskite Composite with Chemically Modified Graphenes

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