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.
Lattice-Resonance Metalenses for Fully Reconfigurable Imaging
Metalenses are compact lensing components based on rationally designed nanoscale building blocks. These planar devices are crucial for miniaturized imaging systems that can be integrated into portable electronic and optical devices. However, existing metalenses have...
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- April 2019: Danqing Wang has been awarded a prestigious Miller Fellowship by the University of California, Berkeley.
- April 2019: Xitlali Juarez and Alex Sample received Honorable Mention recognitions from the NSF Graduate Research Fellowship Program (GRFP).
- April 2019: Teri discussed her path to interdisciplinary research and advice for aspiring scientists in Physics Today.
- March 2019: The group’s latest paper, “Lattice-Resonance Metalenses for Fully Reconfigurable Imaging,” has been featured by Northwestern Now.
- March 2019: Teri has been profiled in ACS student member magazine inChemistry in anticipation of her Eminent Scientist Lecture at the Spring 2019 ACS National Meeting.