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Dr.
Harvard University
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Schedule
Sunday, July 31, 2022
5:00 PM America/Los_Angeles
Recording provided by the organiser.
Domain
Host
SLAAM by UC Merced
Duration
70 minutes
Biological materials gain complexity from the programmable nature of their components. To manufacture materials with comparable complexity synthetically, we need to create building blocks with low crosstalk so that they only bind to their desired partners. Canonically, these building blocks are made using DNA strands or proteins to achieve specificity. Here we propose a new materials platform, termed Magnetic Handshake Materials, in which we program interactions through designing magnetic dipole patterns. This is a completely synthetic platform, enabled by magnetic printing technology, which is easier to both model theoretically and control experimentally. In this seminar, I will give an overview of the development of the Magnetic Handshake Materials platform, ranging from interaction, assembly to function design.
Chrisy Xiyu Du
Dr.
Harvard University
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