Jong-Man Kim

TL;DR: In this paper, a simple and rapid micropatterning method for conductive composites that relies on single-step contact transfer printing (sCTP) is presented, which is readily synthesized by dispersing conductive carbon black nanoparticles into a PDMS matrix and is easily patterned on insulative PDMS substrates with negligible dimensional errors.

TL;DR: In this paper, a highly elastic capacitive pressure sensor array based on a thin all-elastomeric platform is proposed for being integrated onto surfaces with a complex curvature like human skin.

TL;DR: A highly sensitive and stretchable strain sensor comprising a microstructured metal nanowire (mNW)/elastomer composite film that can also detect strain induced by bending and pressure is presented, demonstrating its potential as a versatile sensing tool.

TL;DR: In this paper, the authors report a class of highly stretchable and reliable elastic conductors based on the elastomer-infiltrated vCNT forest with micro-patternability enabled by a facile and accurate contact-transfer patterning approach.

TL;DR: A highly sensitive, simple-architectured wearable resistive pressure sensor based on highly compliant yet robust carbon composite conductors made of a vertically aligned carbon nanotube forest embedded in a polydimethylsiloxane (PDMS) matrix with irregular surface morphology is presented.