2014
DOI: 10.1063/1.4866143
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Cross-nucleation between clathrate hydrate polymorphs: Assessing the role of stability, growth rate, and structure matching

Abstract: Cross-nucleation is a phenomenon where a new crystal nucleates and grows upon the surface of a different polymorph. Previous studies indicate that faster growth rate of the new crystal is a necessary but not sufficient condition for cross-nucleation. The thermodynamic stability of the different polymorphs can also affect cross-nucleation by modulating the rates of crystal growth. The interplay between thermodynamic stability of the polymorphs involved, the growth rate of the crystals, and the need for creation… Show more

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Cited by 47 publications
(52 citation statements)
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References 95 publications
(164 reference statements)
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“…Despite its importance, the mechanism by which one polymorph is selected preferentially during crystallization is currently poorly understood, and the subject of active research. 1,[5][6][7][8][9]12 Here, our focus is on nucleation, the first stage of crystallization, during which a microscopically small nucleus of the crystal phase is formed in the metastable fluid phase. It is well known that what happens at nucleation can determine important physical properties of much larger crystals.…”
Section: Introductionmentioning
confidence: 99%
“…Despite its importance, the mechanism by which one polymorph is selected preferentially during crystallization is currently poorly understood, and the subject of active research. 1,[5][6][7][8][9]12 Here, our focus is on nucleation, the first stage of crystallization, during which a microscopically small nucleus of the crystal phase is formed in the metastable fluid phase. It is well known that what happens at nucleation can determine important physical properties of much larger crystals.…”
Section: Introductionmentioning
confidence: 99%
“…The sI layer is now ready for continued growth as sI hydrate or further interconversions to another hydrate structure such as HS-I. 12,19,20 Another view of this structural interconversion can be found in the supplementary material. 47 The lattice parameter, 12 Å, of a cubic sI hydrate matches the 12.2 × 10.6 Å 2 repeat dimensions of the (101 0) plane of a sH hydrate very well in one dimension while having a discrepancy of over 10% in the other dimension.…”
Section: -24mentioning
confidence: 99%
“…We note that these observations were made directly from molecular dynamics trajectories, and hence, other possible transition pathways may exist and be identified in future studies. Possible structural interconversions between other less common gas hydrate phases, for example, HS-I, 12,20 TS, 19,21 and filled ice structures under high pressures 40,41 or those involving other related mineral structures such as silica crystalline structures, 42,43 are also worthy of further investigation. Similar to the direct structural interconversion between the sH and sII crystals observed here, crossnucleation between crystalline structures that share compatible crystallographic planes has been previously reported, such as for the face-centered cubic and the hexagonal close-packed structures 44 and the cubic and hexagonal ice structures.…”
Section: -29mentioning
confidence: 99%
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