Our research focuses on controlling materials at the 100-nanometer scale and investigating their size and shape-dependent properties. We have developed massively parallel, multi-scale patterning tools to generate hierarchical, anisotropic, and 3D hard and soft materials with applications in imaging, sensing, wetting, and cancer therapeutics.
Stretchable nanolasers from hybrid quadrupole plasmons
We achieved mechanical control of the lasing color by exploiting a lasing cavity based on periodic arrays of nanoparticles in a stretchable, polymer matrix. This materials system could achieve reversibly tunable lasing as well as superior sensitivity to applied...
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- November 2018: The group’s research for the Air Force Center of Excellence for Advanced Bioprogrammable Nanomaterials is highlighted here.
- November 2018: Group member Danqing Wang has been highlighted in a feature by Northwestern’s International Institute for Nanotechnology.
- October 2018: Teri has been elected to the 2019 Fellows Class of The Optical Society (OSA).
- October 2018: In celebration of the 30th Anniversary of the Packard Fellowship for Science and Engineering, the Packard Foundation released a video featuring Teri and some of her Packard Fellow colleagues.