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ab-initio material inputs corresponding to the simulated device components, such as the Hamiltonian and Dynamical matrices, electron-phonon coupling elements, forces and energies, etc. Computing
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processes, particularly in complex or technically challenging settings. To address these questions, the lab develops and applies new methods for metabolomics, lipidomics, and ¹³C metabolic flux analysis, as
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a postdoc to join its research team studying the political economy of low-carbon technologies (LCTs) and climate policy. The PET group adopts an interdisciplinary, mixed-method approach grounded in
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cutting-edge technologies to dissect these interactions: high-density microelectrode arrays (HD-MEAs) for large-scale electrophysiology, spatial transcriptomic methods, and human iPSC-derived neuronal
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efficient synthetic routes to organic molecules relevant to flow battery electrolytes. Conduct multistep organic synthesis, purification, and complete molecular characterization (NMR, MS, elemental analysis
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RODI to fundamental and applied drift studies. Testing, benchmarking, and validating RODI as a drift sampling tool through direct comparison with traditional sampling methods. Contributing