Recently, artificial photosynapses have attracted much attention from researchers because they have the ability to perceive, process, and remember information about the external environment, which can greatly improve the efficiency of visual information processing. This work prepared the artificial optical synaptic transistors based on organic electrochemical transistors (OECTs) and CsPbBr3 quantum dots (QDs) synthesized at room temperature. The fabricated device here could successfully imitate the visual functions by mimicking the important synaptic features such as excitatory postsynaptic currents, paired-pulse facilitation, spiking-rate-dependent plasticity, spiking-number-dependent plasticity, and short-term memory to long-term memory t...
Synaptic transistors stimulated by light waves or photons may offer advantages to the devices, such ...
Inspired by the low energy consumption, high parallel and fault‐tolerance of visual perception syste...
Wearable nonvolatile memory based on flexible materials has shown an unstoppable development trend i...
Deployment of novel artificial synapses serves as the crucial unit for building neuromorphic hardwar...
Abstract The rapid development of neuromorphic computing has stimulated extensive research interest ...
The translation of biological synapses onto a hardware platform is an important step toward the real...
Neuromorphic computing, which mimics brain function, can address the shortcomings of the “von Neuman...
The ability to simulate biological neurobehavior with electronic devices has now attracted widesprea...
The highly parallel artificial neural systems based on transistor-like devices have recently attract...
For the realization of retina-inspired neuromorphic visual systems which simulate basic functions of...
Neuromorphic computing systems that are capable of parallel information storage and processing with ...
In the human brain, attention plays a crucial role in encoding information into memory. Therefore, f...
Given the synergy of optogenetics and bioimaging in neuroscience, it is possible for light to simult...
Synaptic photodetectors exhibit photon-triggered synaptic plasticity, which thus can improve the ima...
In this study, optoelectronic synaptic transistors based on indium–gallium–zinc oxide (IGZO) with a ...
Synaptic transistors stimulated by light waves or photons may offer advantages to the devices, such ...
Inspired by the low energy consumption, high parallel and fault‐tolerance of visual perception syste...
Wearable nonvolatile memory based on flexible materials has shown an unstoppable development trend i...
Deployment of novel artificial synapses serves as the crucial unit for building neuromorphic hardwar...
Abstract The rapid development of neuromorphic computing has stimulated extensive research interest ...
The translation of biological synapses onto a hardware platform is an important step toward the real...
Neuromorphic computing, which mimics brain function, can address the shortcomings of the “von Neuman...
The ability to simulate biological neurobehavior with electronic devices has now attracted widesprea...
The highly parallel artificial neural systems based on transistor-like devices have recently attract...
For the realization of retina-inspired neuromorphic visual systems which simulate basic functions of...
Neuromorphic computing systems that are capable of parallel information storage and processing with ...
In the human brain, attention plays a crucial role in encoding information into memory. Therefore, f...
Given the synergy of optogenetics and bioimaging in neuroscience, it is possible for light to simult...
Synaptic photodetectors exhibit photon-triggered synaptic plasticity, which thus can improve the ima...
In this study, optoelectronic synaptic transistors based on indium–gallium–zinc oxide (IGZO) with a ...
Synaptic transistors stimulated by light waves or photons may offer advantages to the devices, such ...
Inspired by the low energy consumption, high parallel and fault‐tolerance of visual perception syste...
Wearable nonvolatile memory based on flexible materials has shown an unstoppable development trend i...