Low Temperature Debinding Process Using Oxygen Plasma for Flexible Printed Electronics

A flexible high potential printed battery for powering printed electronics

Recent Achievement in Flexible & Printed Electronics

Organic electronic devices fabricated by entirely wet processes using organic semiconductors, insulators, metal nanoparticles, etc., have been attracting much attention. In particular, by utilizing printing techniques on plastic substrates, flexible electronic devices of large area and low-cost will be attained. However, conventional printing techniques such as flexo printing, screen printing a...

Ultra-Low-Cost Printed Electronics

Single-walled carbon nanotube networks for flexible and printed electronics

Networks of single-walled carbon nanotubes (SWNTs) can be processed from solution and have excellent mechanical properties. They are highly flexible and stretchable. Depending on the type of nanotubes (semiconducting or metallic) they can be used as replacements for metal or transparent conductive oxide electrodes or as semiconducting layers for field-effect transistors (FETs) with high carrier...

Screen printed passive components for flexible power electronics

Additive and low-temperature printing processes enable the integration of diverse electronic devices, both power-supplying and power-consuming, on flexible substrates at low cost. Production of a complete electronic system from these devices, however, often requires power electronics to convert between the various operating voltages of the devices. Passive components-inductors, capacitors, and ...