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/high-quality research; Publication record in leading international and well ranked journals, preferably on the design and preparation of porous materials for gas/vapor adsorptive and membrane separations
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groundbreaking filtration and extraction processes. Key Responsibilities: Participate in and lead the development of lithium-ion battery recycling technologies. Develop advanced separation technologies including
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. This position focuses on implementing innovative separations methods including advanced / designer membranes (e.g., OSN, OSRO) in dynamic filtration systems (to reduce fouling propensity) for lignin oil and water
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leaching, solvent extraction, ion exchange, electrodialysis, membrane separation, and crystallization or precipitation. Position Requirements Recent or soon-to-be-completed PhD (typically completed within
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Do you want to work with cutting edge membrane and filtration technology? And do you see yourself as a team player who is strong in collaboration? If yes, we look forward to reading your application
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and lead the development of lithium-ion battery recycling technologies. Develop advanced separation technologies including solvent extraction, membranes, and adsorption, for recycling and purification
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porous materials Develop novel machine learning model for predicting gas adsorption behavior Investigate molecular transport and separation mechanisms for membrane process Publish journal articles and
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gas adsorption behavior Investigate molecular transport and separation mechanisms for membrane process Publish journal articles and present research in professional conferences Outstanding Benefits
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cause of bacterial sexually transmitted infections. As a developmentally regulated bacterium, Chlamydia utilize novel mechanisms to differentiate, divide, and develop. The successful candidate will lead
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://www.huttenhainlab.com/ (link is external) ) at Stanford Medicine, studies mechanisms of intracellular signal integration through G protein-coupled receptors (GPCRs), the largest family of membrane receptors mediating