Photomemory and Pulse Monitoring Featured Solution‐Processed Near‐Infrared Graphene/Organic Phototransistor with Detectivity of 2.4 <b>×</b> 10<sup>13</sup> Jones

He, Zhihua; Han, Jiayue; Du, Xiaoyang; Cao, Luye; Wang, Jun; Zheng, Caijun; Lin, Hui; Tao, Silu

doi:10.1002/adfm.202103988

Cited by 36 publications

(49 citation statements)

References 60 publications

(114 reference statements)

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“…Notably, phototransistor-based near-infrared detectors can be used in a wide range of emerging applications including noninvasive bioimaging, wearable health monitoring, and biometric authentication owing to their mechanical flexibility, affordability, and solution processability. [134][135][136] The material systems used in phototransistor-based photodetectors comprise 1) semiconductors and 2) photoabsorbers, which determine, respectively, the charge transport polarity and photoresponse of the phototransistor. It is possible to combine these two functionalities into a single semiconducting polymer material or molecule for use in a photodetector.…”

Section: Photodetectorsmentioning

confidence: 99%

“…Notably, phototransistor‐based near‐infrared detectors can be used in a wide range of emerging applications including noninvasive bioimaging, wearable health monitoring, and biometric authentication owing to their mechanical flexibility, affordability, and solution processability. [ 134–136 ]…”

Section: Application Of Phototransistors In Artificial Synapses and P...mentioning

confidence: 99%

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Recent Advances in Organic Phototransistors: Nonvolatile Memory, Artificial Synapses, and Photodetectors

2022

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Recent research interest in organic field‐effect transistor (FET) memory has shifted to the functionality of photoprogramming in terms of its potential uses in multibit data storage and light‐assisted encryption and its low‐energy consumption and broad response to various optical bands. Phototransistor memory can be modulated through both electrical stress and light illumination, allowing it to function as an orthogonal operation method without mutual interference. Herein, the basic design concepts, requirements, and architectures of phototransistor memory are introduced. Design architectures such as channel‐only, channel‐with‐photogate, photochromatic channel devices and floating gate, photoactive polymer, and organic molecule‐based electrets are systematically categorized. The operational mechanism and impact of effective combinations of channels and electrets are reviewed to provide a fundamental understanding of photoprogramming as well as its potential future developmental applications as nonvolatile memory. Furthermore, recent advances in phototransistors and their diverse applications, including nonvolatile memory, artificial synapses, and photodetectors, are summarized. Finally, the outlook for the future development of phototransistors is briefly discussed. A comprehensive picture of the recent progress in phototransistors is provided.

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Section: Photodetectorsmentioning

confidence: 99%

Section: Application Of Phototransistors In Artificial Synapses and P...mentioning

confidence: 99%

Recent Advances in Organic Phototransistors: Nonvolatile Memory, Artificial Synapses, and Photodetectors

2022

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“…Low dimensional materials including quantum dots [158], nanowires [159], 2D materials [160] are reported to offer solutions for high photoconductive gain or tunable Fermi level [161]. A novel design, solution-processed graphene/organic phototransistor was reported by He et al for a NIR region detection [162]. They realised a multifunctional device that could work both as a pulse monitoring and a photomemory.…”

Section: Photoactivated Memory Devices and Their Applicationsmentioning

confidence: 99%

A Review on Solution-Processed Organic Phototransistors and Their Recent Developments

et al. 2022

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Today, more disciplines are intercepting each other, giving rise to “cross-disciplinary” research. Technological advancements in material science and device structure and production have paved the way towards development of new classes of multi-purpose sensory devices. Organic phototransistors (OPTs) are photo-activated sensors based on organic field-effect transistors that convert incident light signals into electrical signals. The organic semiconductor (OSC) layer and three-electrode structure of an OPT offer great advantages for light detection compared to conventional photodetectors and photodiodes, due to their signal amplification and noise reduction characteristics. Solution processing of the active layer enables mass production of OPT devices at significantly reduced cost. The chemical structure of OSCs can be modified accordingly to fulfil detection at various wavelengths for different purposes. Organic phototransistors have attracted substantial interest in a variety of fields, namely biomedical, medical diagnostics, healthcare, energy, security, and environmental monitoring. Lightweight and mechanically flexible and wearable OPTs are suitable alternatives not only at clinical levels but also for point-of-care and home-assisted usage. In this review, we aim to explain different types, working mechanism and figures of merit of organic phototransistors and highlight the recent advances from the literature on development and implementation of OPTs for a broad range of research and real-life applications.

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“…Near-infrared (NIR) light, due to its low attenuation and large penetration depth in the medium, has spawned various applications in optical communications, biomedical testing, environmental monitoring, and other fields. − Highly efficient and sensitive detection of NIR light has become a very important content in the development of near-infrared applications. The traditional way to detect NIR light specifically utilizes an inorganic wideband photodetector combined with an external visible light filter to eliminate the visible light interference .…”

Section: Introductionmentioning

confidence: 99%

High-Performance Near-Infrared Photodetectors Based on the Synergy Effect of Short Wavelength Light Filter and Long Wavelength Response of a Perovskite/Polymer Hybrid Structure

Zhang

Qin

Huo

et al. 2021

ACS Appl. Mater. Interfaces

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Near-infrared photodetectors (NIR-PDs) are widely used in communications, biomedical imaging, and national defense. Here we report a new strategy to prepare a short wavelength light filter based NIR-PDs by introducing an interface layer between the perovskite layer and the polymer layer to achieve the selective passage of carriers. Through the synergistic effect of the perovskite and the interface layer, the short wavelength light component in the signal spectrum is effectively filtered out. The organic polymer layer with a bulk heterojunction structure is applied to realize the absorption and conversion of near-infrared light. The prepared device achieves a maximum external quantum efficiency of 83.7% without bias, a high specific detectivity of 1.52 × 1013 Jones, an NIR responsivity of 0.577A/W, and a short response time of 1.73/0.97 μs within the detection range from 770 to 900 nm. All these properties show great advantages compared with other perovskite/polymer hybrid NIR photodetectors that have been reported. This innovative strategy provides a new way to prepare high-performance near-infrared photodetectors.

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Photomemory and Pulse Monitoring Featured Solution‐Processed Near‐Infrared Graphene/Organic Phototransistor with Detectivity of 2.4 × 10¹³ Jones

Cited by 36 publications

References 60 publications

Recent Advances in Organic Phototransistors: Nonvolatile Memory, Artificial Synapses, and Photodetectors

Recent Advances in Organic Phototransistors: Nonvolatile Memory, Artificial Synapses, and Photodetectors

A Review on Solution-Processed Organic Phototransistors and Their Recent Developments

High-Performance Near-Infrared Photodetectors Based on the Synergy Effect of Short Wavelength Light Filter and Long Wavelength Response of a Perovskite/Polymer Hybrid Structure

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Photomemory and Pulse Monitoring Featured Solution‐Processed Near‐Infrared Graphene/Organic Phototransistor with Detectivity of 2.4 × 1013 Jones

Cited by 36 publications

References 60 publications

Recent Advances in Organic Phototransistors: Nonvolatile Memory, Artificial Synapses, and Photodetectors

Recent Advances in Organic Phototransistors: Nonvolatile Memory, Artificial Synapses, and Photodetectors

A Review on Solution-Processed Organic Phototransistors and Their Recent Developments

High-Performance Near-Infrared Photodetectors Based on the Synergy Effect of Short Wavelength Light Filter and Long Wavelength Response of a Perovskite/Polymer Hybrid Structure

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Photomemory and Pulse Monitoring Featured Solution‐Processed Near‐Infrared Graphene/Organic Phototransistor with Detectivity of 2.4 × 10¹³ Jones