Flexible electronic devices have attracted a great deal of attention in recent years due to
their flexibility, reduced complexity and lightweight. Such devices can conformably attach …

Bioelectronics have made strides in improving clinical diagnostics and precision medicine.
The potential of bioelectronics for bidirectional interfacing with biology through continuous …

“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 …

Organic electronic materials have been considered for a wide-range of technological
applications. More recently these organic (semi) conductors (encompassing both conducting …

A key issue in the realization of retinal prosthetic devices is reliable transduction of
information carried by light into specific patterns of electrical activity in visual information …

Interfacing organic electronics with biological substrates offers new possibilities for
biotechnology by taking advantage of the beneficial properties exhibited by organic …

In the past 50 years, the advent of electronic technology to directly interface with neural
tissue has transformed the fields of medicine and biology. Devices that restore or even …

Real-time stimulation and recording of neural cell bioelectrical activity could provide an
unprecedented insight in understanding the functions of the nervous system, and it is crucial …

There is a quest for electronic biosensors operated in water for biomedical applications and
environmental monitoring. Water is an aggressive medium for standard electronics materials …