New in @ScienceAdvances, we present a bioinspired microfluidic sweat sensing system that overcomes key barriers to long-term biochemical monitoring, enabling multiday continuous tracking of gout biomarkers such as uric acid, xanthine, and alcohol. @Caltech

RT @ScienceMagazine: This wearable sweat sensor can detect responses to acute, chronic, and emotional stress. Learn more in @ScienceAdvanc….

What do you want to know?.

RT @EricTopol: A wearable sensor that measures multiple hormones simultaneously in sweat to provide continuous real-time metrics and dynami….

RT @ScienceMagazine: This wearable sweat sensor can detect responses to acute, chronic, and emotional stress. Learn more in @ScienceAdvanc….

New in @ScienceAdvances, we report Stressomic, a wearable microfluidic biosensor for non-invasive and dynamic monitoring of three key stress hormones: cortisol, epinephrine, and norepinephrine in sweat. Cheers to @JiaobingT, @Jeonghee_1004 and the team!

Interested candidates should contact Prof. Wei Gao at weigao@caltech.edu with a PDF that includes: (1) a CV, (2) a summary of research experience related to nucleic acid/aptamer-based sensing, and (3) a brief statement outlining research interests and alignment with our program.

We are hiring! The Gao Research Group at the California Institute of Technology is seeking postdoctoral researchers with strong expertise in nucleic acid/aptamer-based sensing technologies for our wearable, implantable, and ingestible platforms. @Caltech.

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 .

RT @Caltech: Scientists are increasingly finding that the gastrointestinal tract plays a vital role in our overall health. While its main f….

Caltech News on our new Smart Capsule for the Health of the GI Tract @Caltech

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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 .

Congratulations, @inho_kim_ 🎉🎉! We are very proud of you! @Caltech.

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In our new @NatChemEng Viewpoint, we join fellow experts to share perspectives on how sensing interfaces are reshaping automation, control, and robotics. @Caltech

RT @ScienceMagazine: A new ultrasound-guided #3Dprinting technique could make it possible to fabricate medical implants in vivo and deliver….

RT @ScienceMagazine: A new ultrasound-guided #3Dprinting technique could make it possible to fabricate medical implants in vivo and deliver….

RT @NatureBiotech: Focused ultrasound cross-links functional biomaterials within deep tissues to enable on-demand in vivo printing of impla….

RT @ScienceMagazine: A new ultrasound-guided #3Dprinting technique could make it possible to fabricate medical implants in vivo and deliver….

RT @PSWnano: Here is an exciting new paper on #3Dprinting in vivo with #ultrasound with group alumna Prof. Elham Davoodi @DavoodiElham, now….