The world is facing unprecedented challenges with the COVID-19 pandemic, further complicating complex global innovation trends and demanding unparalleled response from governments and organizations alike. As China and other affected Asian nations have been fighting the pandemic, forward-looking collaborations in technology development and innovation are more important than ever. This key element of collaboration in addressing global innovation is a hallmark of MIT’s problem-solving approach, especially amidst our current global challenges.
In the coming months, the MIT Industrial Liaison Program (ILP) is pleased to present a special webinar series featuring leading researchers and field experts to share insights in energy, nanomaterials, novel photonics, robotics, city planning, healthcare, and more.
We invite you to join the 2020 MIT ILP Regional Webinar Series to engage and explore topics with our experts, including opportunities to interact with academics and global ILP member executives, to drive national and international economic growth through innovation and entrepreneurship in each covered field.
2020 MIT ILP Regional Webinar Series, Part 6
Juejun (JJ) Hu received the B.S. degree from Tsinghua University, China, in 2004, and the Ph.D. degree from Massachusetts Institute of Technology, Cambridge, MA, USA, in 2009, both in materials science and engineering. He is currently the Merton C. Flemings Career Development Associate Professor at MITs Department of Materials Science and Engineering. His primary research interest is enhanced photonmatter interactions in nanophotonic structures, with an emphasis on on-chip spectroscopy and chemical sensing applications using novel infrared glasses. Prior to joining MIT, he was an Assistant Professor at the University of Delaware from 2010 to 2014., Hu has authored and coauthored more than 60 refereed journal publications since 2006 and has been awarded six U.S. patents. He has been recognized with the National Science Foundation Faculty Early Career Development award, the Gerard J. Mangone Young Scholars Award, the University of Delaware College of Engineering Outstanding Junior Faculty Member, the University of Delaware Excellence in Teaching Award, among others.,Dr. Hu is currently the Deputy Editor of the OSA journal Optical Materials Express, and he is a Member on technical program committees for conferences including MRS, CLEO, OSA Congress, ACerS GOMD, ICG, and others. (Based on document published on 13 September 2016)
Humans are visual beings and therefore optical elements—lenses, mirrors, gratings, optical fibers, etc.—have been playing a pivotal role in almost all aspects of the human society. Conventional optics are however bulky, complicated, and sensitive even to tiny misalignment. Micro-optics promise to overcome these limitations by leveraging standard high-volume microfabrication technologies to realize chip-scale, rugged and low-cost counterparts of conventional optics while delivering comparable or even superior performance. In this talk, I will discuss several new micro-optics innovations we have pioneered in recent years with direct applications to optical spectroscopy, chemical analysis, biomedical imaging, 3-D depth sensing, and AR/VR.