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2019, the U.S. Department of Energy (DOE) approved the EIC project by issuing Critical Decision 0 (CD-0), or “mission need,” and selected Brookhaven National Laboratory (BNL) as the host site
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. The EIC will be a discovery machine for unlocking the secrets of the “glue” that binds the building blocks of visible matter in the universe. The machine design is based on the existing and highly optimized
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. The EIC will be a discovery machine for unlocking the secrets of the “glue” that binds the building blocks of visible matter in the universe. The machine design is based on the existing and highly optimized
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industrial or academic users of the facility. Essential Duties and Responsibilities: Initiate and complete independent XCFS projects from crystallization to public data deposition. Support external user XCFS
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solutions to challenges influenced by meteorological conditions (contaminant dispersion, weather extremes, building design, renewable energy generation) in highly heterogeneous environments such as cities and
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-slope transistors for energy-efficient microelectronics applications as a part of a DOE Microelectronics Science and Research Center (MSRC) project. You will explore the materials and device physics of 2D
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Division), plus other postdoctoral researchers who are working on different aspects of the project (i.e., development of ptychographic imaging techniques, performing simulations and experiments
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operating aberration-corrected STEM. Preference is given to those with proficiency in utilizing the Nion microscopes and/or 4D-STEM technique. This project is highly collaborative. We anticipate that you will
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, adhering to a Design-Build-Test-Learn methodology for integrated research. Within the Schwender group, the primary objective is to assess the outcomes of metabolic engineering endeavors aimed at enhancing
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stresses. This project is part of the newly established Plant Immunity Research Initiative (PIRI), a DOE-funded program aimed to resolve devastating diseases that affect bioenergy crops. PIRI’s mission is to