With the rapid development of intelligent robotics, the Internet of Things, and smart sensor
technologies, great enthusiasm has been devoted to developing next-generation intelligent …

Von Neumann computers are currently failing to follow Moore's law and are limited by the
von Neumann bottleneck. To enhance computing performance, neuromorphic computing …

Functional emulation of biological synapses using electronic devices is regarded as the first
step toward neuromorphic engineering and artificial neural networks (ANNs). Electrolyte …

As the core component of an intelligent neuromorphic computer system, reliable synaptic
devices process vast amounts of data with high computing speed and low energy …

Electrolyte-gated transistors (EGTs) provide prominent analog switching performance for
neuromorphic computing. However, suffering from self-discharging nature, the retention …

Conventional von Neumann architecture is insufficient in establishing artificial intelligence
(AI) in terms of energy efficiency, computing in memory and dynamic learning. Delightedly …

Living organisms have a very mysterious and powerful sensory computing system based on
ion activity. Interestingly, studies on iontronic devices in the past few years have proposed a …

Emerging flexible artificial sensory systems using neuromorphic electronics have been
considered as a promising solution for processing massive data with low power …

With the rapid development of the Internet of Things, the amount of data we involved in our
daily life is growing exponentially, which poses significant challenges for data processing …

Li+ electrolyte‐gated transistors (EGTs) have received much attention as artificial synapses
for neuromorphic computing. EGTs, however, have been still challenging to achieve long …