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. The research focuses on the development of next-generation thermoelectric materials through advanced nanoscale engineering. The project aims to significantly enhance thermoelectric performance by
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photocathodes for long-term hydrogen production, thermoelectric modules for solar waste heat harvesting, or perovskite-silicon devices for light-driven chemical synthesis. For more details, please view https
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Fellowship project (2D nanomaterial heterostructures for photocatalytic hydrogen production), ARC Discovery project (Inorganic/organic Hybrids for flexible thermoelectric generators) and The Hebrew University
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of the recruitment and description of the project] * Background of the recruitment and description of the project Job Announcement for Associate Professor majoring Electrical engineering https://www.u-fukui.ac.jp/wp
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feature filtering procedure to deal with the large feature set necessary to predict the thermoelectric ZT of a material. - Improve the already existing experimental dataset. - Apply different machine
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. Relevant Keywords: fuel cells, thermoelectrics, photovoltaics, energy storage, advanced characterization. Quantum Properties of Solids, Quantum Materials, and Quantum Technology Objective: advancing
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ferroelectrics, thermoelectrics, and nanomaterials. Computational modeling approaches include high-throughput computation (see jarvis.nist.gov), predictive tight-binding analysis (see github.com/usnistgov
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thermoelectric properties of materials across thin films, nanowires, 2D systems, and nanostructures, with a strong focus on nanoscale heat transport and energy conversion. We design, synthesize, and characterize
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to thermoelectricity, nanocalorimetry, and nanoscale thermal measurements. The group explores environmental energy harvesting (thermoelectricity) and energy generation/storage using micro fuel cells and biodegradable
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. Interested candidates may want to take a look at our recent work on machine learning molecular dynamics: https://www.nature.com/articles/s41467-024-52491-3 Project 2: Non-adiabatic Molecular Dynamics