With ever-increasing demand for lightweight, small, and portable devices, the rate of
production of electronic and optoelectronic devices is constantly increasing, and alternatives …

Advances in device technology have been accompanied by the development of new types
of materials and device fabrication methods. Considering device design, initiated chemical …

With the increasing interest and demand for epidermal electronics, a strong interface
between a sensor and a biological surface is essential, yet achieving such interface is still a …

A novel approach to fabricate flexible organic solar cells is proposed without indium tin
oxide (ITO) and poly (3, 4‐ethylenedioxythiophene): poly (styrenesulfonate)(PEDOT: PSS) …

Flexible and wearable piezoelectric bio e-skin (PBio-e-skin) based on electrospun poly (L-
lactic acid) PLLA nanofiber membrane is demonstrated for non-invasive human …

With the rapid increase in the use of optogenetics to investigate the nervous system, there is
a high demand for a neural interface that enables 2D mapping of electrophysiological neural …

Stretchable and flexible electronics built from multifunctional fibres are essential for devices
in human–machine interactions, human motion monitoring and personal healthcare …

Recent progress in flexible sensors and piezoelectric materials has enabled the
development of continuous monitoring systems for human physiological signals as wearable …

Novel flexible transparent electrodes (FTEs) based on metal nanoparticles/nanowires
(NWs), carbon nanotubes, graphene and conductive polymers play important roles in the …

Printing technology offers a simple and cost-effective opportunity to develop all-printed
stretchable circuits and electronic devices, possibly providing ubiquitous, low-cost, and …