The low-noise, solution-processed, flexible organic devices offer the ability to use arbitrarily shaped, large-area photodiodes to replace complex arrays that would be required with conventional ...

Boosting the lifetime, effectiveness of biomedical devices ... explains that the term electrografting describes a process in which organic molecules are electrochemically oxidized or reduced, ...

Grace Sun, a 16-year-old from Kentucky, won $75,000 for her research on biomedical devices. She took home the top prize at the ISEF — the "granddaddy of all science fairs." Her work on organic ...

Conjugated polymers, such as poly(3,4-ethylene dioxythiophene) (PEDOT), have emerged as promising materials for interfacing biomedical devices with tissue because of their relatively soft mechanical ...

An effective direct interfacing material is essential to communication between these devices and neural tissue, which includes nerves and the brain. In recent years, a conjugated polymer known as ...

A postdoctoral position is currently available in the laboratory of Dr. Jonathan Rivnay at Northwestern University, Department of Biomedical Engineering, to develop biomedical devices that utilize ...

A WSU research team is bringing together natural medical cures with modern biomedical devices in hopes of bringing about better health outcomes for people with bone diseases.

From biofuels in the Bay Area to biomedical devices in Boulder, alumna Kristen (Potter) Bradley (ChemBioEngr ’10) has come full circle. Bradley currently works at Medtronic’s (formerly Covidien) ...

NOVEMBER 19, 2021 — UTSA biomedical engineering students are partnering with professional biomedical engineers at San Antonio-based Nvision Biomedical to get real-world experience in medical design.