The programmable nature of smart textiles makes them an indispensable part of an
emerging new technology field. Smart textile‐integrated microelectronic systems (STIMES) …

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 …

Since the last decade, interest in cellulose nanomaterials known as nanocellulose has been
growing. Nanocellulose has various applications ranging from composite reinforcement to …

With the prospect of extremely fast manufacture of very low cost devices, organic electronics
prepared by thin film processing techniques that are compatible with roll‐to‐roll (R2R) …

Printed electronics enable the fabrication of large‐scale, low‐cost electronic devices and
systems, and thus offer significant possibilities in terms of developing new electronics/optics …

Paper is ubiquitous in everyday life and a truly low‐cost substrate. The use of paper
substrates could be extended even further, if electronic applications would be applied next …

Gravure printing of graphene is demonstrated for the rapid production of conductive patterns
on flexible substrates. Development of suitable inks and printing parameters enables the …

Printed electronics promises the realization of low-cost electronic systems on flexible
substrates over large areas. In order to achieve this, high quality patterns need to be printed …

Textile electronics addresses fibers or fiber assemblies with electronic functions to generate,
transmit, modulate, and detect electrons. Interactive textile electronic devices may provide …

The production of electronic devices using solution based (“wet”) deposition technologies
has some decisive technical and commercial advantages compared to competing …