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for next-generation high-voltage, high-energy electrochemical energy storage intended for electric vehicle applications. The project focuses on the design and synthesis of novel electrolyte materials
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by the upgraded Advanced Photon Source with a new, highly brilliant source and the featured CSSI beamline dedicated to surface coherent scattering. The project scope also includes developing
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(microelectromechanical systems) devices for X-ray optics at synchrotron radiation sources. Some background of the project is given in the publications listed below. The idea is to make highly nonlinear MEMS-based
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Responsibilities: Design and fabricate membranes using a variety of layered materials Perform detailed structural and chemical characterization to evaluate membrane properties Utilize techniques such as SEM, TEM
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heterogeneous Catalysis focusing on stimulus driven and non-equilibrium catalysis Design, synthesize, and characterize well-defined complexes supported on metal oxide or non-traditional support materials
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fundamental understanding of reaction mechanisms in molten salts and apply insights to process development and scale up. Project activities will include the design and development of online monitoring tools
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at Materials Engineering Research Facility (MERF) and collaborators inside and outside Argonne. The candidate is expected to design and conduct experiments, analyze data and explore mechanisms behind
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organometallic / inorganic heterogeneous catalysis Design, synthesize, and characterize metal-ligand complexes supported on metal oxide and/or non-traditional support materials Investigate the catalytic activity
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for next-generation lithium- and sodium- ion batteries. This role provides a unique opportunity to work at the forefront of battery innovation, focusing on the design and implementation of novel synthesis
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project, a joint effort with the Solar Energy Conversion group supervised by Alex Martinson, aims to probe fundamental mechanisms for light-driven energy conversion in artificial photosynthesis. In