The emergence of new applications, such as in artificial intelligence, the internet of things,
and biotechnology, has driven the evolution of stress sensing technology. For these …

Recent progress in electronic skin or e‐skin research is broadly reviewed, focusing on
technologies needed in three main applications: skin‐attachable electronics, robotics, and …

There is little question that the “electronic revolution” of the 20th century has impacted
almost every aspect of human life. However, the emergence of solid‐state electronics as a …

The recent advent of biodegradable materials has offered huge opportunity to transform
healthcare technologies by enabling sensors that degrade naturally after use. The …

Organic semiconductors have attracted a lot of attention since the discovery of highly doped
conductive polymers, due to the potential application in field-effect transistors (OFETs), light …

Biological materials have robust hierarchical structures capable of specialized functions and
the incorporation of natural biologically active components, which have been finely tuned …

Flexible electronic devices are necessary for applications involving unconventional
interfaces, such as soft and curved biological systems, in which traditional silicon‐based …

Hunger and chronic undernourishment impact over 800 million people, which translates to≈
10.7% of the world's population. While countries are increasingly making efforts to reduce …

“Green” electronics represents not only a novel scientific term but also an emerging area of
research aimed at identifying compounds of natural origin and establishing economically …

Electronic devices that can physically disappear in a controlled manner without harmful by‐
products unveil a wide range of opportunities in medical devices, environmental monitoring …