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the complex mechanisms that plants use to produce oils and other bioproducts and to defend themselves from disease. We leverage the unique capabilities of Brookhaven’s National Synchrotron Light Source-II
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for deep insight and active collaboration. The goal of the Center is to investigate materials and mechanisms associated with electrochemical energy storage systems, batteries. This is a dynamic and
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materials and associated heterostructures, such as those based on 2D transition-metal dichalcogenides (TMDCs), and perform nanofabrication and electrical characterization of 2D heterostructure devices using
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or heterogeneous catalysis of small molecule activation. Density functional theory applications to transition-metal containing molecular complexes. Hybrid quantum mechanics/molecular mechanics (QM/MM) methods
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and synchrotron radiation, with the goal of informing component design, shielding, and electronics protection strategies. The successful candidate will work closely with the beam optics, lattice, and
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chemistry, EUV exposure mechanisms, high-resolution patterning performance, and dry-etching characteristics of the synthesized hybrid resists by utilizing electron beam lithography (EBL), low-energy electron
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interconnects, (ii) characterization of mechanical stress and radiation-damage effects in photonics components integrated on a conventional silicon substrate and (iii) preparation of samples to be used for x-ray
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materials and their unique physical phenomena, such as metal-insulator transitions, charge-spin-lattice correlations, and the critical role of defects and interfaces. Utilizing state-of-the-art electron
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specializing in areas such as energy storage, catalysis, and geochemistry. You will investigate ultra-long timescale reaction dynamics using advanced quantum mechanical calculations, MLIPs, and problem-specific