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electronic ceramics, batteries, solid oxide fuel cells, energy harvesting devices, photovoltaics, carbon capture materials, as well as phenomena relevant to additive manufacturing of ceramics and their post
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detectors. A few examples of technologies being explored include lithium ion battery performance, oxidation growth, man-made diamonds, magnetic thin films, and reactor wall survival. key words Charged
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quantitative CR-PFM to novel materials and device structures, such as piezoelectric devices for energy harvesting and nano-generation, or lithium ion battery materials for improved power generation and charging
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memory, batteries, catalysts, flexible devices, alternate computing paradigms, and quantum phenomena. In order to take advantage of the promising properties of these heterogeneous systems, holistic study
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, bio-medical interfaces, solvated nanoparticles, sensors, batteries, and other devices. References Kolmakov A, Gregoratti L, Kiskinova M, Guenther S: Recent Approaches for Bridging the Pressure Gap in
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such as complex hydrides for hydrogen-storage and battery applications, intermetallic or oxides with interesting electronic or magnetic properties, and metal organic frameworks materials for gas sorption
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nanodevices, reactive battery (or fuel cell) electrodes under cycling, thin-films nucleation and growth during CVD, ALD, PVD depositions, observing chemical or plasma etching processes, etc. under realistic
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, blood clots, highly-efficient batteries, multiphase flow in colloidal and geological systems, and the burgeoning field of metal 3D printing. Job Description: As this far-field neutron interferometer will
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new avenues for application of atomically precise timing in portable, battery-operated technologies. In this project, MEMS microfabrication processes are used to construct millimeter-scale atomic