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copolymers). These systems serve as excellent candidates for strongly interacting solutions and designer thermoreversible polyelectrolyte gels. Light and neutron scattering and fluorescence correlation
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designs. In addition to fabrication and characterization of these measurement tools, we also develop new readout schemes, signal and data processing, control systems, and biomimetic surfaces to improve
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assays are generally time consuming, complex and non-standardized. There exists a critical need to develop in vitro assays that are robust and reproducible. This research opportunity entails the design
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the use of laser pumping and silicon micromaching. This proejct develops compact magentic sensors than combine high sensitivity and accuracy with vector field readout and manufacturability. We design novel
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. These capabilities will enable rational design and reproducible assembly of complex microbial communities that are robust, biologically meaningful, and responsive to environmental perturbations. Some specific
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of acoustic data limits the design of acoustic filter technology. For pharmaceuticals and chemical manfucaturers, there are important relaxation processes that we cannot measure with off the shelf
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(e.g., metal-organic frameworks, hydrogen-bonded organic frameworks etc.) are promising candidates for many gas storage and separation applications. Rational design of new materials requires fundamental
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well as updating their own model. Current logical frameworks are not flexible enough to manage the constant schema design changes that arise in healthcare and manufacturing systems. The eventual goal is to develop a
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the overall chirality of the coating chromophores. This project will investigate design rules governing chirally-defined molecular assembly, and explore new functions arising from interactions of the new chiral
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these devices is to enable chip-scale frequency combs in the near-infrared and mid-infrared spectral regions. Our goal is to develop end-to-end capabilities in this area, including electromagnetic design