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.
Reconfigurable Graphene Wrinkles with Area-Specific Structural Features
Graphene exhibit unique electronic properties and mechanical flexibility that are beneficial for next-generation electronics. Crumpling graphene on elastomer sheets can engineer the properties depending on wavelength and orientation while maintaining structural...
Recent News | Visit News Archive
- January 2020: Dongjoon’s recent publication, “Soft Skin Layers Enable Area-Specific, Multiscale Graphene Wrinkles with Switchable Orientations,” has been highlighted in an ACS Nano article, “Getting the Hole Story on Molecular Binding to Nanopore Edges.”
- January 2020: Teri’s selection as Nano Letters Editor-in-Chief has been celebrated in a Nature Nanotechnology editorial.
- January 2020: Lucy’s article, “Strain-Dependent Nanowrinkle Confinement of Block Copolymners,” has been published in Nano Letters.
- January 2020: Teri and the other 2020 ACS National Award winners were highlighted by Chemical & Engineering News.
- November 2019: The group’s nanolaser research was spotlighted by Communique, the internal Office of Science newsletter.
- November 2019: Teri has been named as the new editor-in-chief of Nano Letters! Read the announcement from ACS and more in Chemical & Engineering News.