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. Position requires lifting up to 10lbs up to 2/3 of the time and up to 25lbs under 1/3 of the time. Special vision requirements are close vision (clear vision at 20 inches or less); color vision (ability
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-dimensional (2D) materials of type MX2 (M=Metal, X=Chalcogen, type WS2, WSe2) and MX (InSe, In2Se3). The scientific aim is to understand the interactions between these different materials according
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or multilayer two-dimensional (2D) transition metal carbides and nitrides and are widely recognized as one of the fastest growing areas in 2D materials research due to their exceptional physical and structural
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years. The candidates should apply by completing the online form, attaching a complete CV including at least two references. The deadline for application is January 6, 2026. Where to apply Website https
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of twisted quantum materials and two-dimensional correlated electron systems. This project covers a wide range of areas, including advanced van der Waals materials, moire quantum matter, superconductivity
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digital tools. They will exhibit a broad, experimental strategy to sculptural methodologies, including multidisciplinary practices that bridge two-, three-, and four-dimensional work. The candidate will
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records, and statistical genetics at the scale of biobanks. The position will focus on methodological and applied work in either one of the two broad, complementary areas: High-dimensional causal mediation
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areas of chemistry such as analytical chemistry, physical chemistry, materials chemistry, inorganic and structural chemistry and organic chemistry. The research projects are many from theory to experiment
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National Aeronautics and Space Administration (NASA) | Pasadena, California | United States | about 5 hours ago
] A. D. Jewell et al., “Low-temperature homoepitaxial growth of two-dimensional antimony superlattices in silicon,” Journal of Vacuum Science & Technology A 36(6), 061513 (2018). [2] A. D. Jewell et al
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applications of two-dimensional (2D) materials, focusing particularly on their interactions with light at extreme limits and at the nanoscale. The group integrates the realms of nanophotonics, 2D materials