The demand for portable and wearable chemical or biosensors and their expeditious
development in recent years has created a scientific challenge in terms of their continuous …

Sensory feedback from touch is critical for many tasks carried out by robots and humans,
such as gras** objects or identifying materials. Electronic skin (e-skin) is a crucial …

An electronic skin (e-skin) for the next generation of robots is expected to have biological
skin-like multimodal sensing, signal encoding, and preprocessing. To this end, it is …

Energy autonomy is key to the next generation portable and wearable systems for several
applications. Among these, the electronic-skin or e-skin is currently a matter of intensive …

There is a growing demand for develo** wearable sensors that can non-invasively detect
the signs of chronic diseases early on to possibly enable self-health management. Among …

Abstract The Printed Electronics (PE) is expected to revolutionise the way electronics will be
manufactured in the future. Building on the achievements of the traditional printing industry …

With robots starting to enter our lives in a number of ways (eg, social, assistive, and surgery),
the electronic skin (e-skin) is becoming increasingly important. The capability of detecting …

Inspired by the structure and functions of the human skin, a highly sensitive capacitive‐
piezoelectric flexible sensing skin with fingerprint‐like patterns to detect and discriminate …

Transfer printing of high mobility inorganic nanostructures, using an elastomeric transfer
stamp, is a potential route for high-performance printed electronics. Using this method to …

In this fast-growing technological world biosensors become more substantial in human life
and the extensive use of biosensors creates enormous research interest among researchers …