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Reconfigurable Homojunction Phototransistor for Near-Zero Power Consumption Artificial Biomimetic Retina Function

Han Zhao, Yichi Zhang, Qing Mi, Jie You, Ningning Zhang, Zhenyang Zhong, Zuimin Jiang, Hui Guo, Huiyong Hu, Liming Wang, Zhangming Zhu

2024ACS Nano17 citationsDOI

Abstract

Semiconductor photodetectors integrating preliminary signal-processing functions play a vital role in artificial biomimetic retina systems. Herein, we propose a tungsten diselenide (WSe 2 ) phototransistor with a dual-layer gate dielectric and an asymmetric graphene insert structure. This phototransistor exhibits a bidirectional self-powered photocurrent by controlling the gate voltage via the formation of reconfigurable p + –p and n–p homojunctions in the channel from the asymmetric graphene insert. At the same time, the nonvolatile electron and hole stored in the dual-layer gate dielectric are generated using a temporary gate voltage, which can replace the gate voltage to regulate the channel charge. Moreover, the photocurrent shows a linear relation with the temporary programming gate voltage. The phototransistor exhibits a rectification ratio of >4 orders of magnitude without the gate voltage, indicating its significant capability to operate in a fully self-powered mode with near-zero power consumption. Based on the device characteristics, we successfully simulate the biological functions of the photoreceptor layer and bipolar cell layer in the retinal receptive field. The identification of the object motion direction in the receptive field can be realized by integrating three programmable devices on the chip. Furthermore, edge enhancement of the image is achieved by independently modulating the light response of each pixel in the sensor by varying the programming gate voltage. This study will promote the developing progress of future artificial biomimetic retina systems.

Topics & Concepts

HomojunctionPhotodiodePower consumptionMaterials scienceRetinaArtificial lightOptoelectronicsFunction (biology)NanotechnologyPower (physics)OpticsPhysicsBiologyIlluminanceCell biologyQuantum mechanicsHeterojunctionAdvanced Memory and Neural ComputingNeuroscience and Neural EngineeringCCD and CMOS Imaging Sensors
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