Highly Flexible Stencil Printed Alkaline Ag2O-Zn Battery for Wearable Electronics

All-Printed, Stretchable Zn-Ag2O Rechargeable Battery via, Hyperelastic Binder for Self-Powering Wearable Electronics

DOI: 10.1002/aenm.201602096 of highly conductive fillers (>107 S m−1, silver nanowires and carbon nanomaterials) into an elastomeric matrix.[23] Unlike deterministic composite, these devices are intrinsically stretchable as fillers maintain electrical contact by sliding along each other during stretching.[22] Intrinsically stretchable batteries have been reported, but none are completely elasti...

A flexible high potential printed battery for powering printed electronics

Wearable Magnetic Field Sensors for Flexible Electronics

Highly flexible bismuth Hall sensors on polymeric foils are fabricated, and the key optimization steps that are required to boost their sensitivity to the bulk value are identified. The sensor can be bent around the wrist or positioned on the finger to realize an interactive pointing device for wearable electronics. Furthermore, this technology is of great interest for the rapidly developing ma...

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...

Highly conductive aluminum textile and paper for flexible and wearable electronics.

Light to wear: Aluminum coated fibrous materials with excellent electrical conductivity and mechanical endurance are fabricated at room temperature by a chemical solution process. The resulting aluminum-coated conductive papers and threads can be used in electric circuits for flexible and wearable electronics.