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relevant to high-field and high-temperature dielectric performance to inform the digital discovery of new polymers. Characterize materials, interfaces, and film morphology using microscopy and materials
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development spanning areas such as optimization, Fourier analysis, numerical linear algebra, statistics, machine learning, and high-performance computing for one or more of the following: (1) reconstruction
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optical materials with high kh2 coefficients of particular interest as it will enable fabrication of quantum transducers. These are devices that enable controlled conversion of signal or excitation from one
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, fabricate, commission, and operate advanced laboratory systems including high-temperature reactors, calorimetry platforms, flow systems, molten salt setups, and electrochemical cells. Conduct and interpret
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, affordability and utility regulation. Join our team and YOU will play a supporting role in our goal to address global challenges! Have a high level of impact and work for an organization associated with 17 Nobel
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Science Acceleration Program (NESAP ). You will join a multidisciplinary team building AI-driven scientific workflows for the upcoming Doudna supercomputer. Doudna will deliver over 10x the performance
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Synthesis Science program in which the postdoc will combine literature data extraction, LLM reasoning, and theoretical materials science to guide synthesis protocols for automated sol-gel and solid-state