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is typically achieved through a formal education in physics, mechanical engineering, or chemical engineering, or a related field at the PhD level with zero to five years of employment experience with a
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(LOHCs) Perform detailed studies to understand reaction mechanisms, determine reaction kinetics, and measure the heat of adsorption of LOHCs in porous materials Collaborate with multidisciplinary teams
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, timing, and triggering; development of IOCs, OPI screens, and integration with DAQ workflows. Experience working at synchrotron or FEL facilities. Knowledge of mechanical design for cryogenic/vacuum
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catalytic mechanisms and reaction outcomes • Perform detailed in situ / operando studies of catalysts using Infrared and X-ray Absorption Spectroscopies, as well as other advanced spectroscopic techniques
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deposition (ALD). The project involves performing quantum mechanical calculations (e.g., first principles density functional theory (DFT)) to identify the structures and to understand the complex mechanisms
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scales and mechanisms of dynamics in these samples. 3. Contributions to the writing and editing of manuscripts for publication. Position Requirements • A Ph.D. in Materials Science, Physics, or a related
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automated experimental systems to measure electrode performance and durability over extended operation. Investigate electrode material performance, aging, and degradation mechanisms for bioprocessing
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the last 0-5 years) in the field of experimental nuclear physics, particle physics, electrical engineering, chemical engineering, materials science, mechanical engineering, or related discipline Ability to
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++ preferred). Knowledge of power system operations, electricity market mechanisms, and energy system modeling. SAnalytical and problem-solving skills, with the ability to work independently and collaboratively
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mechanisms through reaction kinetics analysis and other physical organic and inorganic techniques Perform detailed in situ / operando studies of catalysts using X-ray Absorption and Emission Spectroscopies