Rapid advances in the semiconductor industry, driven largely by device scaling, are now
approaching fundamental physical limits and face severe power, performance, and cost …

Advances in the understanding of nanoscale ionic processes in solid‐state thin films have
led to the rapid development of devices based on coupled ionic–electronic effects. For …

The rapid increase in information in the big-data era calls for changes to information-
processing paradigms, which, in turn, demand new circuit-building blocks to overcome the …

Electrochemical ion insertion involves coupled ion–electron transfer reactions, transport of
guest species and redox of the host. The hosts are typically anisotropic solids with 2D …

This tutorial describes challenges and possible avenues for the implementation of the
components of a solid-state system, which emulates a biological brain. The tutorial is …

Many metal–insulator–metal systems show electrically induced resistive switching effects
and have therefore been proposed as the basis for future non-volatile memories. They …

Computation in its many forms is the engine that fuels our modern civilization. Modern
computation—based on the von Neumann architecture—has allowed, until now, the …

Memristive switching in nanoionic devices involves the interplay between physical,
electrochemical and thermochemical processes, which can occur in the bulk or at interfaces …

The energy-efficient manipulation of the properties of functional materials is of great interest
from both a scientific and an applied perspective. The application of electric fields is one of …

Non‐von‐Neumann computing using neuromorphic systems based on two‐terminal
resistive nonvolatile memory elements has emerged as a promising approach, but its full …