Porous crystalline materials usually include metal–organic frameworks (MOFs), covalent
organic frameworks (COFs), hydrogen-bonded organic frameworks (HOFs) and zeolites …

The quest to imbue machines with intelligence akin to that of humans, through the
development of adaptable neuromorphic devices and the creation of artificial neural …

This study presents a method to enhance data processing by integrating a unidirectional
analogue artificial neuromorphic memristor device with a piezoelectric nanogenerator …

In recent years, the emergence of memory devices, especially resistive random-access
memories (RRAM), has been a front-runner in many technological applications. This is due …

In the quest for high-density integration and massive scalability, ferroelectric-based devices
provide an achievable approach for nonvolatile crossbar array (CBA) architecture and …

Hydrogels find widespread applications in biomedicine because of their outstanding
biocompatibility, biodegradability, and tunable material properties. Hydrogels can be …

A tetraphenylethene‐based organic material (TC) was synthesized to demonstrate
mechanochromic memristive properties. The synthesized material shows aggregation …

In the context of neuromorphic computing chip engineering, this review paper explores the
area of bio-inspired artificial synapses with a focus on the incorporation of soft biomaterials …

The potential of neuromorphic computing to bring about revolutionary advancements in
multiple disciplines, such as artificial intelligence (AI), robotics, neurology, and cognitive …

In pursuit of neuromorphic (brain-inspired) devices, memristors (memory-resistors) have
emerged as promising candidates for emulating neuronal circuitry. Here we mathematically …