Life in our planet is highly dependent on plants as they are the primary source of food,
regulators of the atmosphere, and providers of a variety of materials. In this work, we review …

The excellent stretchability and biocompatibility of flexible sensors have inspired an
emerging field of plant wearables, which enable intimate contact with the plants to …

The integrated “perception‐memory” system is receiving increasing attention due to its
crucial applications in humanoid robots, as well as in the simulation of the human retina and …

Electrical signals in plants are mediators of long-distance signaling and correlate with plant
movements and responses to stress. These signals are studied with single surface …

Bioelectronic devices are designed to translate biological information into electrical signals
and vice versa, thereby bridging the gap between the living biological world and electronic …

Develo** neural electrodes with high stretchability and stable conductivity is a promising
method to explore applications of them in biological medicine and electronic skin. However …

The advancement of plant phenomics by using optical imaging-based phenoty**
techniques has markedly improved breeding and crop management. However, there …

New sustainable strategies for preserving plants are crucial for tackling environmental
challenges. Bioinspired soft and miniature machines have the potential to operate in forests …

Powering and communicating with wearable devices on bio-interfaces is challenging due to
strict weight, size, and resource constraints. This study presents a sunflower-like plant …

Plants are able to sense and respond to a myriad of external stimuli, using different signal
transduction pathways, including electrical signaling. The ability to monitor plant responses …