Wei Gao
@WeiGaoLab
Professor @Caltech
New in @NatureElectron, we present an ingestible smart capsule capable of simultaneously monitoring a broad spectrum of biochemical markers—including electrolytes, metabolites, and hormones. Congrats to @jihong_min0602 and the team! @Caltech @CaltechEAS nature.com/articles/s4192…
New in @NatureComms, we report a chip-less wearable neuromorphic system that integrates sensing and computing for real-time analysis of physiological and biochemical signals. Congrats to Yongsuk and the team! @Caltech @CaltechEAS nature.com/articles/s4146…
Scientists are increasingly finding that the gastrointestinal tract plays a vital role in our overall health. While its main functions center around digestion, the GI tract is also involved in other areas that can affect mood and brain function. caltech.edu/about/news/new…
Caltech News on our new Smart Capsule for the Health of the GI Tract @Caltech caltech.edu/about/news/new…
Congratulations, @inho_kim_ 🎉🎉! We are very proud of you! @Caltech
I’m glad to share that I‘ll be joining the Department of Chemistry at Sungkyunkwan University (SKKU) starting in September 2025. My lab will focus on soft system-based human-machine interface in precision healthcare. Many thanks to @WeiGaoLab and everyone who has supported me!
A new ultrasound-guided #3Dprinting technique could make it possible to fabricate medical implants in vivo and deliver tailored therapies to tissues deep inside the body—all without invasive surgery, researchers report in Science. 📄: scim.ag/3GWmu2Y…
A new ultrasound-guided #3Dprinting technique could make it possible to fabricate medical implants in vivo and deliver tailored therapies to tissues deep inside the body—all without invasive surgery, researchers report in Science. 📄: scim.ag/3GWmu2Y…
Focused ultrasound cross-links functional biomaterials within deep tissues to enable on-demand in vivo printing of implants, demonstrating potential for a wide range of biomedical applications. science.org/doi/10.1126/sc… #NBThighlight
A new ultrasound-guided #3Dprinting technique could make it possible to fabricate medical implants in vivo and deliver tailored therapies to tissues deep inside the body—all without invasive surgery, researchers report in Science. 📄: scim.ag/3GWmu2Y…
Here is an exciting new paper on #3Dprinting in vivo with #ultrasound with group alumna Prof. Elham Davoodi @DavoodiElham, now @UUtah, from her work at @caltech with @WeiGaoLab bit.ly/InVsound3D @ScienceMagazine #nano
Caltech News on our DISP technology - Imaging-guided deep tissue in vivo sound printing @Caltech @CaltechEAS @CaltechMedE caltech.edu/about/news/3d-…
A “smart” wearable microfluidic device can continuously monitor chronic wounds in mice and humans by collecting and analyzing wound exudate, and could facilitate real-time wound management and more personalized treatments. @WeiGaoLab @CaltechEAS scim.ag/4cRDfbw
Congratulations to Sam for passing his PhD defense 🎉🍾!! Our lab’s 8th PhD🎊! @Caltech @CaltechEAS @CaltechMedE
