Organic and perovskite memristors have superior characteristics both in material and
structural perspectives, and therefore have been evaluated for possible integration as bio …

Two of the key questions to be addressed are whether and how one can turn cocoon silk
into fascinating materials with different electronic and optical functions so as to fabricate the …

Being capable of dealing with both electrical signals and light, artificial optoelectronic
synapses are of great importance for neuromorphic computing and are receiving a …

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

In neuromorphic computing networks, a flexible synaptic memristor with high recognition
accuracy is highly desired. In this study, ZnO nanosheets (ZnO NS) embedded within a …

The von Neumann computing architecture consists of separated processing and memory
elements; it is too bulky and energy-intensive to be implemented in the upcoming artificial …

Since memristors as an emerging nonlinear electronic component have been considered
the most promising candidate for integrating nonvolatile memory and advanced computing …

The development of advanced microelectronics requires new device architecture and multi‐
functionality. Low‐dimensional material is considered as a powerful candidate to construct …

Regenerated wool keratin fibers (RWKFs) have heretofore attracted tremendous interest
according to environmental friendliness, ample resource, and intrinsic biocompatibility for …

Memristors are considered to be one of the most promising device concepts for
neuromorphic computing, in particular thanks to their highly tunable resistive states. To …