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of film behavior, and stimulus-responsive interfaces and (2) development of new bio- and nanometrology tools. In particular, we creatively harness microfluidic technology, basic microfabrication tools
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. This opportunity focuses on systematic studies or creative applications of mechanical loading to help further elucidate hydrogen-effects on materials performance in regimes little explored in the literature and
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for Neutron Research (NCNR) and the NIST-run beamlines at the National Synchrotron Light Source (NSLS). This opportunity focuses on applying or developing creative solutions for detecting hydrogen in
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thermophysical data in the world. Direct access to this information offers unique possibilities for the development and validation of creative multiscale computational approaches to complex electrostatic processes
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measurement platforms using present and next generation electron microscopes. If you are a creative individual and can imagine what “can be” given the data richness of our program, we invite you to apply and
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-ray energy-dispersive spectroscopy (XEDS) spectral images integrated over thousands of frames with "on the fly" drift correction. We seek a creative researcher to work with us to develop and apply