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Printable Molecule-Selective Nanoparticles Enable Mass Production of Wearable Biosensors - ⁦Caltech⁩ News on our new work ⁦Nature Materials⁩ ⁦Caltech Division of Engineering & Applied Science⁩ ⁦Caltech Medical Engineering⁩ caltech.edu/about/news/pri…

Scientists from the California Institute of Technology have developed a minuscule robot designed for targeted drug delivery. The robots use magnetic nanoparticles, allowing precise control of their movement using an external magnetic field

Apply now for the Trailblazers Symposium Caltech Division of Engineering & Applied Science!! This symposium recognizes outstanding early-career researchers advancing the frontiers of engineering and applied science. Deadline: Mar 21st!! eastrailblazers.caltech.edu

Wearable and implantable biosensors still face challenges to improve sensitivity, stability and scalability. Here the authors report inkjet-printable, mass-producible core-shell nanoparticle-based biosensors to monitor a range of biomarkers. Wei Gao nature.com/articles/s4156…

Giving two invited talks Pittcon Conference + Exposition this coming Monday and Tuesday. Looking forward to connecting with friends and colleagues—hope to see you there!

Congratulations to Wenzheng Heng for passing his PhD defense!! Our lab’s 7th PhD! 🎉🎊🍾 Caltech Division of Engineering & Applied Science Caltech Medical Engineering Caltech

Giving two invited talks at MRS #S25MRS Materials Research Society (MRS) on our latest works in wearable sensors and additive bioelectronic manufacturing. Our team members Wenzheng Heng Hong Han 韩弘 will also present their exciting work on smart mask and microrobots! Welcome to join us!!

Had a great time at Materials Research Society (MRS) with our amazing team and so many friends! Congratulations to Wenzheng Heng for receiving the MRS Graduate Student Award (Gold Award) - well deserved🏅👏!! Caltech Caltech Division of Engineering & Applied Science Caltech Medical Engineering #S25MRS #ProudAdvisor

New in Nature Communications, we report hydrophilic biomacromolecule dopants to dramatically boost the conductivity and biodegradability of injectable hydrogel bioelectronics. Hossein Montazerian Elham (Emma) Davoodi Ali Khademhosseini Paul Weiss nature.com/articles/s4146…

Caltech’s Wei Gao and his colleagues are envisioning a smart bandage of the future—a "lab on skin" that could not only help patients and caregivers monitor the status of chronic wounds but also deliver treatment and speed up the healing process. caltech.edu/about/news/sma…

Congratulations to Sam for passing his PhD defense 🎉🍾!! Our lab’s 8th PhD🎊! Caltech Caltech Division of Engineering & Applied Science Caltech Medical Engineering

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. Wei Gao Caltech Division of Engineering & Applied Science scim.ag/4cRDfbw

Here is an exciting new paper on #3Dprinting in vivo with #ultrasound with group alumna Prof. Elham Davoodi Elham (Emma) Davoodi, now University of Utah, from her work at @caltech with Wei Gao bit.ly/InVsound3D Science Magazine #nano

Caltech News on our DISP technology - Imaging-guided deep tissue in vivo sound printing Caltech Caltech Division of Engineering & Applied Science Caltech Medical Engineering caltech.edu/about/news/3d-…

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