by | Mar 29, 2021 | Chakrabartty, Shantanu, Zhou, Liang
— Technology Description
Engineers in Prof. Shantanu Chakrabartty’s laboratory have developed a self-powered, CMOS-based, nano-scale “smart sensor” and timer system that uses quantum-tunneling for reliable, long-lasting memory or authentication.
This technology is a floating gate …
by | Mar 1, 2021 | Li, Jr-Shin, Zlotnik, Anatoly
— Technology Description:
Researchers in Prof. Jr-Shin Li’s laboratory have developed a robust, scalable, patented technology to control and entrain complex, noisy, non-linear oscillating systems such as neuronal firing and circadian rhythms. This system uses a single global, open-loop control …
by | Nov 30, 2020 | Felder, John
— Technology Description:
A surgeon at Washington University in St. Louis has designed a barbed mesh wound closure device with the potential to save time and improve outcomes by eliminating the need for surgical suturing to close incisions of the skin and fascia. This device has applications in a var…
by | Nov 30, 2020 | Felder, John
— Technology Description:
A surgeon at Washington University in St. Louis has designed a barbed mesh wound closure device with the potential to save time and improve outcomes by eliminating the need for surgical suturing to close incisions of the skin and fascia. This device has applications in a var…
by | Sep 3, 2020 | Curiel, David
— Background:
Viral vectors have been used for in vivo delivery of CRISPR/Cas9. However, it’s applications have been limited by the native tropism of the viral vector. To better utilize in vivo editing, methods must be developed to accomplish efficient, selective and coordinated delivery of CRI…