Kyung-In Jang

3D multifunctional integumentary membranes for spatiotemporal cardiac measurements and stimulation across the entire epicardium.

Multifunctional skin-like electronics for quantitative, clinical monitoring of cutaneous wound healing.

Soft microfluidic assemblies of sensors, circuits, and radios for the skin.

Rugged and breathable forms of stretchable electronics with adherent composite substrates for transcutaneous monitoring.

Epidermal photonic devices for quantitative imaging of temperature and thermal transport characteristics of the skin.

Epidermal electronics with advanced capabilities in near-field communication.

Materials science. Assembly of micro/nanomaterials into complex, three-dimensional architectures by compressive buckling.

Soft network composite materials with deterministic and bio-inspired designs.

Wireless Optofluidic Systems for Programmable In Vivo Pharmacology and Optogenetics.

Soft, stretchable, fully implantable miniaturized optoelectronic systems for wireless optogenetics.

A nonlinear mechanics model of bio-inspired hierarchical lattice materials consisting of horseshoe microstructures.

Biological lipid membranes for on-demand, wireless drug delivery from thin, bioresorbable electronic implants.

Soft, thin skin-mounted power management systems and their use in wireless thermography.

Epidermal electronics for electromyography: An application to swallowing therapy.

Battery-free, stretchable optoelectronic systems for wireless optical characterization of the skin.

Wrinkling of a stiff thin film bonded to a pre-strained, compliant substrate with finite thickness.

A soft, wearable microfluidic device for the capture, storage, and colorimetric sensing of sweat.

Stretchable multichannel antennas in soft wireless optoelectronic implants for optogenetics.

Ultra-thin films with highly absorbent porous media fine-tunable for coloration and enhanced color purity.

Preparation and implementation of optofluidic neural probes for in vivo wireless pharmacology and optogenetics.

Epidermal mechano-acoustic sensing electronics for cardiovascular diagnostics and human-machine interfaces.

Ferromagnetic, folded electrode composite as a soft interface to the skin for long-term electrophysiological recording.

Self-assembled three dimensional network designs for soft electronics.

Miniaturized Battery-Free Wireless Systems for Wearable Pulse Oximetry.