by | Feb 25, 2022 | Li, Jr-Shin
— Technology Description
Engineers in Prof. Jr-Shin Li’s laboratory have developed a computationally efficient analytical technique to design exact RF pulse code sequences which optimize quantum applications such as MRI for medical diagnosis, NMR spectroscopy for uncovering protein structures …
by | Feb 18, 2022 | Elbert, Donald, Roam, Jacob
— Technology Description
Engineers led by Dr. Donald L. Elbert have developed a patented, self-assembling hydrogel microsphere scaffold system designed to improve tissue regeneration by creating cell migration pathways to repair large nerve gaps. This technology generates the migration pathways by c…
by | Oct 21, 2021 | Alazzawi, Yarub, Aono, Kenji, Chakrabartty, Shantanu, Scheller, Erica
— Technology Description
Engineers in Prof. Shantanu Chakrabartty’s laboratory have developed a convenient, wireless power transfer system that exploits the body’s self-capacitance to charge small, low power, wearable and minimally-invasive devices.
Wearable devices traditionally rely o…
by | Sep 25, 2020 | Binkley, Michael, Bose, Arpita, Meacham, John, Rengasamy, Karthikeyan
— Technology Description
An interdisciplinary team of Washington University researchers has developed a high-throughput microfluidic bioelectrochemical cell (μBEC) that collects electrochemical data and is compatible with live-cell microscopy and spectrometry. This device transcends the capabilit…
by | Oct 22, 2019 | Berezin, Mikhail, Binkley, Michael, Meacham, John
— Technology Description:
Methods and devices used for acoustophoresis of biologics have been developed and allow for more than 10,000 fold throughput than existing acoustophoretic devices.
Applications:
1. Isolation of cells in low abundance (immune cells, circulating tumor cells) from whole bloo…