Nanofibrous Biosensor System
The project aims to develop the architecture of nonwoven fibers that will support the electronics while it allows not only intimate integrations on the living organisms but also grants free biofluids and gas transport without artificial biochemical accumulation around the devices.
Epidermal Microfluidics
The wearable device capable of sweat monitoring in daily-life can improve the quality of life and allow prognosis to enhance the efficacy of healthcare service. The project aims to investigate a disposable, robust microfluidic vehicle that can harvest sweat while laminating on the skin, and which will enable multiple, quantitative biomarker analyses via color changes as a function of the concentration of chemical contents in sweat.
Ultrathin, Injectable Biosensors
We exploit the study of the ultrathin, needle-type biosensors for determining temperature, heat capacity, thermal conductivity, mechanical properties, and/or catecholamine detection for wide range of biomedical applications.
Media Highlights
News Highlights
Watson College PhD Student Leads Research on Flexible Bioelectronics
By Chris Kocher, December 06, 2023
Assistant Professor Wins NSF Career Award to Develop Better Biosensors
By Chris Kocher, January 04, 2023
CDs to Flexible Biosensors: Researchers discover easy, inexpensive upcycling method
By Chris Kocher, July 20, 2022
’Smart’ bandages could help with wound care
By Chris Kocher, October 11, 2022
Watson Researchers Create Better Material for Wearable Biosensors
By Chris Kocher, September 10, 2020
NSF funds Watson professors’ research on stretchable ’papertronics’
By Chris Kocher, June 08, 2020
Binghamton researchers, students are inspired to perspire: Faculty members develop sweat-sensing system to measure stress
By Chris Kocher, May 06, 2020
Researchers receive NSF grant to study power generation from human sweat
By Calendra Scahill, May 03, 2019
Professors, alumnae discuss women in STEM at panel
Annual event kicks off 2019 National Engineers Week, By Gitl-Yevgeniya Driker, Feburuary 20, 2019
Biomedical engineering research develops ultrathin, injectable sensors
By Rachael Flores, February 27, 2018