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Highly Sensitive, Low-Energy-Consumption Biomimetic Olfactory Synaptic Transistors Based on the Aggregation of the Semiconductor Films

Xiao‐Cheng Wu, Siyu Chen, Longlong Jiang, Xiaohong Wang, Longzhen Qiu, Lei Zheng

发表年份
2024
引用次数
13

摘要

Artificial olfactory synaptic devices with low energy consumption and low detection limits are important for the further development of neuromorphic computing and intelligent robotics. In this work, an ultralow energy consumption and low detection limit imitation olfactory synaptic device based on organic field-effect transistors (OFETs) was prepared. The aggregation state of poly(diketopyrrolopyrrole–selenophene) (PTDPP) semiconductor films is modulated by adding unfavorable solvents and annealing treatments to obtain excellent charge transfer and gas synaptic properties. The regulated OFET device can execute basic biological synaptic functions, including excitatory postsynaptic currents (EPSCs), paired-pulse facilitation (PPF), and the transition from short-term to long-term plasticity, at an ultralow operating voltage of −0.0005 V. The ultralow energy consumption during the biomimetic simulation is in the range of 8.94–88 fJ per spike. Noteworthily, the gas detection limit of the device is as low as 50 ppb, well below normal human NO2 gas perception limits (100–1000 ppb). Additionally, high-pass filtering, Pavlovian conditioned reflexes, and decoding of “Morse code” were simulated. Finally, a grid-free conformal device with outstanding flexibility and stability was fabricated. In conclusion, the control of semiconductor thin-film aggregation provides effective guidance for preparing low-energy-consumption, highly sensitive olfactory nerve-mimicking devices and promoting the development of wearable electronics.

关键词

Materials scienceNeuromorphic engineeringTransistorExcitatory postsynaptic potentialOptoelectronicsNanotechnologyOlfactory systemSemiconductorOrganic semiconductorEnergy consumption

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