The researchers hope to create a new mode of sensor that will meld seamlessly with the wearer's body to maximize body analysis to help understand chemical and physiological information.
"This topic was interesting to us because we were very interested in real-time, on-site evaluation of wound healing progress in a near future," said Brown. "Both lactate and oxygen are critical biomarkers to access wound-healing progression."
They hope that future research will utilize this skin-inspired sensor design to incorporate more biomarkers and create even more multifunctional sensors to help with wound healing. They hope to see these sensors being developed incorporated into internal organs to gain an increased understanding about the diseases that affect these organs and the human body.
"The bio-mimicry structured sensor platform allows free mass transfer between biological tissue and bio-interfaced electronics," said Koh. "Therefore, this intimately bio-integrated sensing system is capable of determining critical biochemical events while being invisible to the biological system or not evoking an inflammatory response."
COMPAMED-tradefair.com; Source: Binghamton University