Yu Cao

TL;DR: Material innovation and structural design for the preparation of flexible hybrid electronics are reviewed, a brief chronology of these advances is given, and biomedical applications in bioelectrical monitoring and stimulation, optical monitoring and treatment, acoustic imitation and monitoring, bionic touch and body-fluid testing are described.

TL;DR: A 3D twining electrode is proposed by integrating stretchable mesh serpentine wires onto a flexible shape memory substrate, which has permanent shape reconfigurability, distinct elastic modulus controllability, and shape memory recoverability at body temperature.

TL;DR: This review covers recent progresses in flexible inorganic bio-electronics for human physiological parameters’ monitoring in a wearable and continuous way and strategies including materials, structures and device design are introduced with highlights toward the ability to solve remaining challenges in the measurement process.

TL;DR: This review summarizes the recent progress on fabrication strategies, such as hydrodynamic organic nanowire printing and inkjet-assisted nanotransfer printing of flexible organic electronics, and screen printing, soft lithography and transfer Printing of flexible inorganic electronics.

TL;DR: A theoretical model via the virtual work principle for predicting the precise blood pressure and suppressing motion artifacts is introduced, and optical difference in the frequency domain for stable optical measurements in terms of skin-like devices is proposed.