For his internationally recognized leadership in neutron diffraction and crystallography, his role in developing new diffraction facilities at both the High Flux Isotope Reactor and the Spallation Neutron Source, and his leadership of high-impact research programs in high-temperature superconductivity and thermoelectrics; for outstanding mentorship of many early career staff members; and for his representation of ORNL as a fellow in numerous professional societies.
For his innovative contributions to many facets of biofuel sciences focused on lowering costs across the fuel and bioproduct production life cycle, including breakthroughs in fermentation, bioproduct formation, bioprocessing, catalysis, and recalcitrance minimization; for his service (2011–2017) as the scientific coordinator for the BioEnergy Science Center based at ORNL; and for his representation of ORNL as a fellow of the American Institute of Chemical Engineering (AIChE) and Society for Industrial Microbiology and Biotechnology and his service on the AIChE’s Society for Biological Engineering board of directors.
For research that has revolutionized the field of scanning probe microscopy, breaking new ground in atom-scale nanofabrication by combining scanning transmission electron microscopy with artificial intelligence and machine learning methods, and for his representation of ORNL as a fellow in numerous professional societies.
For research that has revolutionized the design of epitaxial complex oxide thin films and heterostructures that deliver novel properties and functionality for a wide array of applications in energy; for his leadership of the Quantum Heterostructures Group in ORNL’s Materials Science and Technology Division; for his central role in the expanding the landscape of the National Quantum Initiative; for his representation of ORNL as a fellow of the American Physical Society; and for his outstanding reputation as a mentor.
For developing innovative, transformative architectures and software for high-performance computing that have been integral in the deployment and exploitation of the world’s most powerful extreme-scale, energy-efficient, productive high-performance computing systems for science; for his leadership of the Future Technologies Group in ORNL’s Computer Science and Mathematics Division; and for his representation of ORNL as a fellow of the Institute of Electrical and Electronics Engineers and a Distinguished Scientist Member of the Association for Computing Machinery.
For internationally recognized contributions in distributed and cluster computing, including the development of the Parallel Virtual Machine and the Message Passing Interface standard now widely used in science to solve computational problems in biology, physics, chemistry, and materials science.
For forefront studies of the fundamental science of actinide elements, through mendelevium, which employ novel experimental techniques, make systematic comparisons, and emphasize the role of the elements' electronic configurations.
For basic studies in the fracture of and toughening mechanisms in ceramics and ceramic composites, in the establishment of the relationships between microstructure and composition and mechanical behavior, and in the development of advanced ceramic materials.
For ideas and techniques which have opened new frontiers in chemical research and now play major roles in the study, understanding, and use of photoionization and photoelectron spectroscopy in studies of "hot atom" chemistry and work with multiply charged molecular ions.
Mazur, who led the Theoretical and Applied Cryobiology Group in the Biology Division, concentrated his research on fundamental mechanisms responsible for injury to cells during freezing and warming. This research and other basic findings were described in his review paper "Freezing of Living Cells: Mechanisms and Implications."