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energetics, thermodynamics, kinetics of protein-DNA interactions, and related phenomena, and connecting these measurements to organism fitness. Computation for engineering biology, such as RNA circuits, in
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for electrical energy storage at grid scale are severely limited by the rheology, energy density, and stability of the working fluids. These fluids have requirements that are in conflict and require performance
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GHz (and potentially up to 300 GHz), which opens new research opportunities at the interface between materials science, chemistry, bioengineering, and physics. The Associate will perform high frequency
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needed to have confidence in those measurements. We focus on genome-scale multiplexed measurements of nucleic acids and proteins, using approaches such as microarrays and ultra-high throughput “next
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are used to produce the products at high levels and high density, conditions that result in stress to the cells. To ensure the economic and safe production of biopharmaceuticals requires multiplexed
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Development of magnetism-based future electronics is fueled by demand for large memory capacity and high data processing rates. New technologies such as hard drives with bit-patterned media and magnetic memory
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wavelength- and energy-dispersive X-ray methods to improve on current transition energy databases performing measurements with unparalleled precision. We use a custom, in-house constructed, high-resolution
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, the resolution improvement can scale like 1/N with properly prepared states, where N is the number of photons in the state. While interferometry and other applications would benefit from high-N photon states
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; Autonomous; Machine learning; Informatics; High-throughput; Data mining; Functional materials; Active Learning
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sophisticated potential energy functions and adequate sampling to reveal the associated, intricate molecular details. In addition to being centrally important, high-quality experimental data (free energy