Search Results - "Kirchner, Katelyn A."

Statistical Mechanical Model of Topological Fluctuations and the Intermediate Phase in Binary Phosphate Glasses by Kirchner, Katelyn A, Bødker, Mikkel S, Smedskjaer, Morten M, Kim, Seong H, Mauro, John C

“…Glasses are topologically disordered materials with varying degrees of fluctuations in structure and topology. This study links statistical mechanics and…”
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Entropy production during ion exchange of glass by Kirchner, Katelyn A., Mauro, John C.

“…The thermodynamics and kinetics of interdiffusion are analyzed for the case of glass ion exchange, a process by which alkali ions from a glass inter‐diffuse…”
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Beyond the Average: Spatial and Temporal Fluctuations in Oxide Glass-Forming Systems by Kirchner, Katelyn A., Cassar, Daniel R., Zanotto, Edgar D., Ono, Madoka, Kim, Seong H., Doss, Karan, Bødker, Mikkel L., Smedskjaer, Morten M., Kohara, Shinji, Tang, Longwen, Bauchy, Mathieu, Wilkinson, Collin J., Yang, Yongjian, Welch, Rebecca S., Mancini, Matthew, Mauro, John C.

“…Atomic structure dictates the performance of all materials systems; the characteristic of disordered materials is the significance of spatial and temporal…”
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Statistical mechanics of topological fluctuations in glass-forming liquids by Kirchner, Katelyn A., Kim, Seong H., Mauro, John C.

“…All liquids are topologically disordered materials, yet the degree of disorder can vary as a result of internal fluctuations in structure and topology. These…”
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Energy landscape modeling of crystal nucleation by Wilkinson, Collin J., Cassar, Daniel R., DeCeanne, Anthony V., Kirchner, Katelyn A., McKenzie, Matthew E., Zanotto, Edgar D., Mauro, John C.

“…[Display omitted] Nucleation is a crucial phase transformation process across all materials science. In the context of crystal nucleation, accurate knowledge…”
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Statistical description of the thermodynamics of glass-forming liquids by Kirchner, Katelyn A., Goyal, Sushmit, McKenzie, Matthew E., Harris, Jason T., Mauro, John C.

“…The design of new glass products centers around connecting the structural features of a network to their macroscopic properties. Since glass-forming liquids…”
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Modeling Oxygen Tricluster Formation in Calcium Aluminosilicate Supercooled Liquids and Glasses by Astle, Sierra R., Welch, Rebecca S., Wilkinson, Collin J., Bødker, Mikkel L., Kirchner, Katelyn A., Smedskjaer, Morten M., Mauro, John C.

“…Calcium aluminosilicate glasses have technological importance for a variety of industrial applications. However, the short-range structure of this glass system…”
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Statistical Mechanical Model of the Self-Organized Intermediate Phase in Glass-Forming Systems With Adaptable Network Topologies by Kirchner, Katelyn A., Mauro, John C.

“…Non-equilibrium systems continuously evolve toward states with a lower free energy. For glass-forming systems, the most stable structures satisfy the condition…”
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Statistical Mechanics of Topological Fluctuations in Glass-Forming Liquids by Kirchner, Katelyn A, Kim, Seong H, Mauro, John C

“…All liquids are topologically disordered materials; however, the degree of disorder can vary as a result of internal fluctuations in structure and topology…”
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