Litcius/Paper detail

A bioinspired flexible neuromuscular system based thermal-annealing-free perovskite with passivation

Jiaqi Liu, Jiangdong Gong, Huanhuan Wei, Yameng Li, Haixia Wu, Chengpeng Jiang, Yuelong Li, Wentao Xu, Yuelong Li, Wentao Xu

2022Nature Communications102 citationsDOIOpen Access PDF

Abstract

Brain-inspired electronics require artificial synapses that have ultra-low energy consumption, high operating speed, and stable flexibility. Here, we demonstrate a flexible artificial synapse that uses a rapidly crystallized perovskite layer at room temperature. The device achieves a series of synaptic functions, including logical operations, temporal and spatial rules, and associative learning. Passivation using phenethyl-ammonium iodide eliminated defects and charge traps to reduce the energy consumption to 13.5 aJ per synaptic event, which is the world record for two-terminal artificial synapses. At this ultralow energy consumption, the device achieves ultrafast response frequency of up to 4.17 MHz; which is orders of magnitude magnitudes higher than previous perovskite artificial synapses. A multi-stimulus accumulative artificial neuromuscular system was then fabricated using the perovskite synapse as a key processing unit to control electrochemical artificial muscles, and realized muscular-fatigue warning. This artificial synapse will have applications in future bio-inspired electronics and neurorobots.

Topics & Concepts

Materials scienceComputer scienceEnergy consumptionElectronicsArtificial musclePerovskite (structure)SynapseCapacitorNeuroscienceNanotechnologyArtificial intelligenceVoltageElectrical engineeringChemistryEngineeringActuatorCrystallographyBiologyAdvanced Memory and Neural ComputingPerovskite Materials and ApplicationsAdvanced Sensor and Energy Harvesting Materials