Jo, Yooyeon Woo, Dong Yeon Noh, Gichang Park, Eunpyo Kim Min Jee Yong Woo Sung Lee, Dae Kyu Park, Jongkil Kim, Jaewook Jeong, YeonJoo Lee, Suyoun Kim, Inho Park, Jong­Keuk Park, Seongsik Kwak, Joon Young 2024-01-12T06:32:40Z 2024-01-12T06:32:40Z 2023-11-17 2024-03 1616-301X https://pubs.kist.re.kr/handle/201004/79760 Brain-inspired neuromorphic computing has been developed as a potential candidate for solving the von Neumann bottleneck of traditional computing systems. 2D materials-based memristors have been exponentially investigated as promising building blocks of neuromorphic computing because of their excellent electrical performance, simple structure, and small device scale. However, while many researchers have focused on looking into individual artificial neuromorphic devices based on memristors, only few studies on the integration of artificial neuron and synaptic devices have been reported. In this work, both volatile and nonvolatile memristors are fabricated by using a 2D hexagonal boron nitride film for artificial neuron and synaptic devices, respectively. The leaky-integrate-and-fire neuron performance and synaptic functions (e.g., synaptic weight plasticity and spike-timing-dependent plasticity) are well emulated with the fabricated volatile and nonvolatile devices. The MNIST image classification is conducted based on the experimental data. For the first time, an artificial neuron-synapse-neuron neural network is physically constructed using the artificial neuron and synaptic devices to mimic the biological neural networks. The synaptic connection strength modulation is experimentally demonstrated between the neurons depending on the conductance state of the synapse, paving the way for the development of large-scale neural network hardware. English John Wiley & Sons Ltd. Hardware Implementation of Network Connectivity Relationships Using 2D hBN­-Based Artificial Neuron and Synaptic Devices Article 10.1002/adfm.202309058 1 Advanced Functional Materials, v.34, no.10 Advanced Functional Materials 34 10 N scie scopus 001100553400001 Chemistry, Multidisciplinary Chemistry, Physical Nanoscience & Nanotechnology Materials Science, Multidisciplinary Physics, Applied Physics, Condensed Matter Chemistry Science & Technology - Other Topics Materials Science Physics Article MEMRISTIVE CROSSBAR ARRAYS ELECTRONIC SYNAPSES DYNAMICS 2D materials RRAM neuron and synaptic devices artificial neural networks