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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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University of California, Los Angeles | Los Angeles, California | United States | about 16 hours ago
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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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
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National Aeronautics and Space Administration (NASA) | Pasadena, California | United States | about 3 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