Wenzhuo ranks among the top 5% of highly cited authors in Royal Society of Chemistry journals in 2019.
Wenzhuo ranks among the top 5% of highly cited authors in Royal Society of Chemistry journals in 2019.
Wenzhuo is invited to serve on the International Editorial Advisory Board of Advanced Materials Technologies, a Wiley journal that has rapidly established itself as an outlet for top-quality materials technology research. It’s exciting and thanks for the invitation!
Our team received a patent for tellurene, an emerging 2D materials showing promise for high-speed electronics, quantum devices and defense tools. It is covered by numerous media, including Purdue News, Photonics Media, Phys.Org News, EurekAlert! and Machine Design.
We received an NSF grant to support our collaborative work on tellurene mid-IR photonics. Thanks for the generous support from NSF!
Welcome our new graduate students Meng Hao and Jing joining the force!
Our group has developed self-powered wearable triboelectric nanogenerators (TENGs) with polyvinyl alcohol (PVA)-based contact layers for monitoring cardiovascular health. TENGs help conserve mechanical energy and turn it into power. The work was reported by several media. https://www.purdue.edu/newsroom/releases/2020/Q3/invention-offers-new-option-for-monitoring-heart-health.html https://phys.org/news/2020-07-option-heart-health.html https://www.cardiovascularbusiness.com/topics/acute-coronary-syndrome/self-powered-heart-monitors-polyvinyl-alcohol-cad Nanogenerators Harvest Energy from Body, Monitor Heart Health https://www.eurekalert.org/pub_releases/2020-07/pu-ion072120.php https://www.devdiscourse.com/article/science-environment/1138955-invention-offers-new-option-for-monitoring-heart-health Invention offers new option for monitoring […]
Our collaborative paper studying ultrafast carrier dynamics in tellurene has been accepted in Nature Communications. Congratulations!
Our review paper on Ink-based additive nanomanufacturing for human-integrated smart wearables has been accepted for publication in Advanced Intelligent Systems. Congratulations!
Our paper on Weyl physics in tellurene with our collaborators at Purdue and other institutions is published by Nature Nanotechnology. Congratulations!
Our review paper on bio-derived natural materials based triboelectric devices for self-powered wearable and implantable devices is published in Advanced Sustainable Systems.
Our group received an NSF supplement grant to support our research on data-driven nanomanufacturing of 2D materials. We are grateful for the generous support from NSF! We look forward to starting this exciting project!
Our work on bio-compatible polymers based triboelectric device for wearable cardiovascular monitoring has been accepted by Advanced Materials! Congratulations!
Congratulations, Yixiu!
Wu Group used lignin to create triboelectric nanogenerators. TENGs help conserve mechanical energy and turn it into power. Lignin is a waste byproduct from the pulp and paper industries, and it is one of the most abundant biopolymers on Earth. Click HERE to see more.
Wenzhuo received the prestigious Army Research Office Young Investigator award to support our work in manufacturing quantum electronics materials. Sincere thanks to ARO for the support!