Humans rely increasingly on sensors to address grand challenges and to improve quality of
life in the era of digitalization and big data. For ubiquitous sensing, flexible sensors are …

Efforts to design devices emulating complex cognitive abilities and response processes of
biological systems have long been a coveted goal. Recent advancements in flexible …

Multisensory integration is a salient feature of the brain which enables better and faster
responses in comparison to unisensory integration, especially when the unisensory cues …

The self-powered strain sensors based on piezoelectric and triboelectric principles have
been widely reported in flexible electronics, but they cannot achieve static strain detection …

Animals execute intelligent and efficient interactions with their surroundings through neural
pathways, exhibiting learning, memory, and cognition. Artificial autonomous devices that …

In biological species, optogenetics and bioimaging work together to regulate the function of
neurons. Similarly, the light‐controlled artificial synaptic system not only enhances …

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 …

The recent wave of the artificial intelligence (AI) revolution has aroused unprecedented
interest in the intelligentialize of human society. As an essential component that bridges the …

Stretchable synaptic transistors, a core technology in neuromorphic electronics, have
functions and structures similar to biological synapses and can concurrently transmit signals …

The neuromorphic system is an attractive platform for next-generation computing with low
power and fast speed to emulate knowledge-based learning. Here, we design ferroelectric …