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Transient modes of zeolite surface growth from 3D gel-like islands to 2D single layers

Manjesh Kumar, Madhuresh K. Choudhary and Jeffrey D. Rimer ()
Additional contact information
Manjesh Kumar: University of Houston
Madhuresh K. Choudhary: University of Houston
Jeffrey D. Rimer: University of Houston

Nature Communications, 2018, vol. 9, issue 1, 1-9

Abstract: Abstract Zeolite crystallization occurs by multifaceted processes involving molecule attachment and nonclassical pathways governed by the addition of amorphous precursors. Here, we use scanning probe microscopy to monitor zeolite LTA crystallization in situ with a spatiotemporal resolution that captures dynamic processes in real time. We report a distinctive pathway involving the formation of gel-like islands from supersaturated solutions comprised of (alumino)silicate molecules. Three-dimensional assembly and evolution of these islands constitutes a unique mode of growth that differs from classical theories. Time-resolved imaging also reveals that growth can occur by (nearly) oriented attachment. At later stages of crystallization, a progressive transition to lower supersaturation shifts growth to a layered mechanism involving two-dimensional nucleation and spreading of layers. Here, we show that LTA crystallization occurs by multiple pathways, thereby reconciling putative hypotheses of growth mechanisms while also highlighting new modes of nonclassical crystallization that may prove relevant to other zeolites and related materials.

Date: 2018
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DOI: 10.1038/s41467-018-04296-4

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