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angela.hightwalker@nist.gov 301.975.2155 Description Photonic and magnetic nanoparticles have shown great potential in a wide range of applications such as catalysis, information storage, energy, and medicine. Our
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separation, catalysis, methane conversion, and natural gas purification. However, reproducible sorption properties measurements are difficult to obtain due to slight variations in sample preparation and/or
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Sorbent materials are candidates for many industrial and sustainable development applications, including carbon capture, hydrogen and methane storage, gas separation and purification, and catalysis. However
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well as dynamic or reversible polymer chemistry that introduce labile sites vulnerable to catalysis and stimuli-responsive chain cleavage. Experimental methods for this opportunity include gel-permeation
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catalysis; and the examination of reaction models used to optimize reaction efficiencies and pathways in chemical systems. A wide variety of diagnostic equipment is available including ultrasensitive cavity
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utilization; carbon sequestration; carbon conversion; direct air capture; sorption; mineralization; catalysis; first-principles calculations; density functional theory; monte carlo simulation; machine learning
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Photoelectron Microspectroscopy. Topics in Catalysis 59: 448-468, 2016 Kraus J, Kolmakov A, et al: Photoelectron spectroscopy of wet and gaseous samples through electron transparent graphene membranes. Nanoscale
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Materials; Catalysis; Synchrotron; X-ray; EXAFS; XANES Eligibility citizenship Open to U.S. citizens level Open to Postdoctoral applicants Stipend Base Stipend Travel Allotment Supplementation $82,764.00
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, 2012 Allison TC, Tong YYJ: Physical Chemistry Chemical Physics 13: 12858, 201 Quantum chemistry; Density functional theory; Kinetics; Catalysis; Solvation; Electrochemistry; Tight binding; Nanoparticles