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With many years of expertise in studying antimatter and how it interacts with normal matter, Professor Gidley is developing and applying positron and positronium spectroscopies to probe porous materials at and below the nanometer scale. The development of materials with molecular level porosity engineered to maximize specific performance goals is an important aspect of the nanotechnology initiative. Such microporous and mesoporous materials include bulk solids, composites, powders, membranes, and thin films. Professor Gidley works with academic and industrial partners on wide-ranging applications in energy research (Metal-Organic-Frameworks and zeolites for gas storage and separation), microelectronic devices (low-K interlayer dielectrics and barriers), and fundamental polymer physics (surface, interface, and thin film properties of glassy polymers and composites thereof). His lab has a focused variable-energy beam of positrons for non-destructive depth-profiling of surfaces and thin films as well as several positron lifetime spectrometers for analyzing bulk samples in a variety of environments. To extend his lab’s capabilities in positron spectroscopy, Professor Gidley collaborates with the intense positron beam effort at the North Caroline State University nuclear reactor and with the positronium group at ETH-Zurich.
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Avery E. Baumann,Peter A. Beaucage,Richard Vallery,David Gidley,Ryan C. Nieuwendaal,Chad R. Snyder, Jan Ilavsky,Fu Chen, Christopher M. Stafford, Christopher L. Soles
CHEMISTRY OF MATERIALSno. 6 (2024): 3022-3033
ACS Materials Lettersno. 7 (2020): 821-828
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