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use X-ray scattering, optical spectroscopy, tensiometry, and rheometry methods to understand the molecular structure and behavior of self-assembled PFAS monolayers at liquid interfaces in the presence
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the composition/structure with the activity/stability of catalysts. Design and develop electrocatalysts for the hydrogen evolution reaction (HER) and oxygen evolution reaction (OER). Coordinate collaborative
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microelectronic structures using ptychographic imaging techniques being developed at NSLS-II. The x-ray metrology pipeline will be utilized for characterization of microelectronic structures being developed at IO
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structural evolutions and to identify key transformations of materials at the nanoscale and below. You will closely collaborate with a multidisciplinary team that includes microscopists in nanomaterials. You
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postdoctoral researcher to work on the synthesis of DNA-scaffolded structures and their incorporation into functional surfaces for bio-templated sensing and electronic devices. In this role, you will build
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conductance microscopy (SICM) and scanning electrochemical microscopy (SECM). You will integrate a workflow of methods to determine electrocatalyst's structure-function correlations, including: i) spatially
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structural evolutions and to identify key transformations of materials at the nanoscale and below. You will closely collaborate with a multidisciplinary team that includes microscopists in nanomaterials. You
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techniques including VPI and SIS. You will develop VPI/SIS parameters and protocols as required for targeted new hybrid photoresist compositions. You will investigate the chemical and structural