Kinetics of Decelerated Melting

Wondraczek L, Pan Z, Palenta T, Erlebach A, Misture ST, Sierka M, Micoulaut M, Hoppe U, Deubener J, Greaves GN (2018)


Publication Type: Journal article

Publication year: 2018

Journal

Book Volume: 5

Article Number: 1700850

Journal Issue: 5

DOI: 10.1002/advs.201700850

Abstract

Melting presents one of the most prominent phenomena in condensed matter science. Its microscopic understanding, however, is still fragmented, ranging from simplistic theory to the observation of melting point depressions. Here, a multimethod experimental approach is combined with computational simulation to study the microscopic mechanism of melting between these two extremes. Crystalline structures are exploited in which melting occurs into a metastable liquid close to its glass transition temperature. The associated sluggish dynamics concur with real-time observation of homogeneous melting. In-depth information on the structural signature is obtained from various independent spectroscopic and scattering methods, revealing a step-wise nature of the transition before reaching the liquid state. A kinetic model is derived in which the first reaction step is promoted by local instability events, and the second is driven by diffusive mobility. Computational simulation provides further confirmation for the sequential reaction steps and for the details of the associated structural dynamics. The successful quantitative modeling of the low-temperature decelerated melting of zeolite crystals, reconciling homogeneous with heterogeneous processes, should serve as a platform for understanding the inherent instability of other zeolitic structures, as well as the prolific and more complex nanoporous metal–organic frameworks.

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APA:

Wondraczek, L., Pan, Z., Palenta, T., Erlebach, A., Misture, S.T., Sierka, M.,... Greaves, G.N. (2018). Kinetics of Decelerated Melting. Advanced Science, 5(5). https://doi.org/10.1002/advs.201700850

MLA:

Wondraczek, Lothar, et al. "Kinetics of Decelerated Melting." Advanced Science 5.5 (2018).

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