Brain-inspired neuromorphic computing emulates the biological functions of the human
brain to achieve highly intensive data processing with low power consumption. In particular …

The continuous growth in artificial intelligence and high-performance computing has
necessitated the development of efficient optoelectronic artificial synapses crucial for …

Neuromorphic computing, which mimics brain function, can address the shortcomings of the
“von Neumann” system and is one of the critical components of next-generation computing …

Recently, research interest in brain‐inspired neuromorphic computing based on robust and
intelligent artificial neural networks has surged owing to the ability of such technology to …

Artificial synapses that integrate functions of sensing, memory and computing are highly
desired for developing brain-inspired neuromorphic hardware. In this work, an …

Human beings and animals can easily recognize various objects and make sense out of a
large amount of visual information in a complex, real-world environment. It has been …

There has been considerable interest in the development of optoelectronic synaptic
transistors with synaptic functions and neural computations. These neuromorphic devices …

Emerging brain-inspired neuromorphic computing systems have become a potential
candidate for overcoming the von Neuman bottleneck that limits the performance of most …

Emulation of biological synapses is necessary for future brain‐inspired neuromorphic
computational systems that could look beyond the standard von Neuman architecture. Here …

The practical application of optoelectronic artificial synapses in neuromorphic visual systems
is still hindered by their limited functionality, reliability and the challenge of mass production …