Inspired from powerful functionalities of human brain, artificial synapses are innovated
continuously for the construction of brain‐like neuromorphic electronics. The quest to rival …

With the advent of wearable microelectronic devices in the interdisciplinary bio-electronics
research field, synaptic devices with capability of neuromorphic computing are attracting …

Emulation of biological synapses is an important step toward construction of large-scale
brain-inspired electronics. Despite remarkable progress in emulating synaptic functions …

In recent years, much attention has been focused on two-dimensional (2D) material-based
synaptic transistor devices because of their inherent advantages of low dimension …

Nonvolatile, flexible artificial synapses that can be used for brain-inspired computing are
highly desirable for emerging applications such as human–machine interfaces, soft robotics …

Ultrathin conformable artificial synapse platforms that can be used as on-body or wearable
chips suggest a path to build next-generation, wearable, intelligent electronic systems that …

Artificial synaptic devices that emulate the neural functionalities of the human brain have
received research attention owing to their inherent ability to build brain-like computing …

Biological synapses are the operational connection of the neurons for signal transmission in
neuromorphic networks and hardware implementation combined with electrospun 1D …

Neuromorphic devices that mimic a human brain have attracted significant attention in the
field of next-generation semiconductors. The human brain can efficiently process information …

Flexible artificial synapses, which use flexible electronic devices to simulate biological
synapses, are the cornerstone of brain‐like computers and artificial intelligence systems …