Biomimetic Polymer Sensors, LEDs, and Neuromorphic Devices for Next-Generation Biointerfaced Technologies
10th May 2023
Timing : 1 pm EST
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For a list of all talks at the NanoBio seminar Series Spring'23, see here
The vast amount of biological mysteries and biomedical challenges faced by humans provide a prominent drive for seamlessly merging electronics with biological living systems (e.g. human bodies) to achieve long-term stable functions. Towards this trend, one of the key requirements for electronics is to possess biomimetic form factors in various aspects for achieving long-term biocompatibility. To enable such paradigm-shifting requirements, polymer-based electronics are uniquely promising for combining advanced electronic functionalities with biomimetic properties. In this talk, I will introduce our new design concepts of functional polymers, which realize the combination of multiple biomimetic properties with advanced electronic and photonic functionalities. Furthermore, enabled by these new materials, we have also created new device designs and fabrication processes for building unprecedented functional devices, including stretchable and bioadhesive biosensors, stretchable neuromorphic devices, and stretchable OLEDs, which all simultaneously achieve high performance and new biomimetic properties. Collectively, our research is opening up a new generation of electronics that fundamentally changes the way that biology and humans interact with electronics.
Dr. Sihong Wang
Assistant Professor
Pritzker School of Molecular Engineering
The University of Chicago
Sihong Wang is an Assistant Professor in the Pritzker School of Molecular Engineering at the University of Chicago, USA. He received his Ph.D. degree in Materials Science and Engineering from the Georgia Institute of Technology in 2014, and his Bachelor’s degree from Tsinghua University in 2009. From 2015 to 2018, he was a postdoctoral fellow in Chemical Engineering at Stanford University. He has published over 70 papers in numerous high-impact journals, including Nature, Science, Nature Materials, Nature Electronics, Matter, Nature Communications, Science Advances, Advanced Materials, Energy & Environmental Science, etc. His research group currently focuses on soft polymeric bioelectronic materials and devices as the new generation of technology for biomedical studies and practices. As of March 2023, his research has been cited more than 21,000 times and he has an H-index of 59. He was recognized as a Highly Cited Researcher by Clarivate Analytics from 2020 to 2022, and was awarded the NIH Director’s New Innovator Award, NSF CAREER Award, Office of Naval Research (ONR) Young Investigator Award, MIT Technology Review 35 Innovators Under 35 (TR35 Global List), Advanced Materials Rising Star Award, ACS PMSE Young Investigator Award, iCANX Young Scientist Award, MRS Graduate Student Award, Chinese Government Award for Outstanding Students Abroad, Top 10 Breakthroughs of 2012 by Physics World, etc.