Given the synergy of optogenetics and bioimaging in neuroscience, it is possible for light to simultaneously modulate and visualize synaptic events of optoelectronic synaptic devices, which are building blocks of a neuromorphic computing system with optoelectronic integration. Here we demonstrate the realization of the simultaneous modulation and visualization of synaptic events by using optically stimulated synaptic devices based on the heterostructure of fluorescent silicon quantum dots (Si QDs) and monolayer molybdenum disulfide (MoS2). The charge-transfer-enabled photogating effect of the Si QDs/MoS2 heterostructure leads to the nonvolatility of the synaptic devices, which exhibit important synaptic functionalities and synchronous fluor...
OBJECTIVE:The convergence of optogenetic and large-scale neural recording technologies opens enormou...
Two-terminal memristors with internal Ca<sup>2+</sup>-like dynamics can be used to faithfully emulat...
Emerging brain-inspired neuromorphic computing systems have become a potential candidate for overcom...
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...
Silicon- (Si-) based optoelectronic synaptic devices mimicking biological synaptic functionalities m...
For the realization of retina-inspired neuromorphic visual systems which simulate basic functions of...
Simulating biological synaptic functionalities through artificial synaptic devices opens up an innov...
Artificial synapses with light signal perception capability offer the ability to neuromorphic visual...
Abstract Neuromorphic computing can efficiently handle data‐intensive tasks and address the redundan...
Recently, artificial photosynapses have attracted much attention from researchers because they have ...
The von Neumann bottleneck has spawned the rapid expansion of neuromorphic engineering and brain-lik...
Neuromorphic computing systems that are capable of parallel information storage and processing with ...
Rapid developments in artificial intelligence trigger demands for perception and learning of externa...
Deployment of novel artificial synapses serves as the crucial unit for building neuromorphic hardwar...
OBJECTIVE:The convergence of optogenetic and large-scale neural recording technologies opens enormou...
Two-terminal memristors with internal Ca<sup>2+</sup>-like dynamics can be used to faithfully emulat...
Emerging brain-inspired neuromorphic computing systems have become a potential candidate for overcom...
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...
Silicon- (Si-) based optoelectronic synaptic devices mimicking biological synaptic functionalities m...
For the realization of retina-inspired neuromorphic visual systems which simulate basic functions of...
Simulating biological synaptic functionalities through artificial synaptic devices opens up an innov...
Artificial synapses with light signal perception capability offer the ability to neuromorphic visual...
Abstract Neuromorphic computing can efficiently handle data‐intensive tasks and address the redundan...
Recently, artificial photosynapses have attracted much attention from researchers because they have ...
The von Neumann bottleneck has spawned the rapid expansion of neuromorphic engineering and brain-lik...
Neuromorphic computing systems that are capable of parallel information storage and processing with ...
Rapid developments in artificial intelligence trigger demands for perception and learning of externa...
Deployment of novel artificial synapses serves as the crucial unit for building neuromorphic hardwar...
OBJECTIVE:The convergence of optogenetic and large-scale neural recording technologies opens enormou...
Two-terminal memristors with internal Ca<sup>2+</sup>-like dynamics can be used to faithfully emulat...
Emerging brain-inspired neuromorphic computing systems have become a potential candidate for overcom...