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Abstract
Polymorph selection and efficient crystallization are cen-tral goals in zeolite synthesis. Crystalline seeds are used for both purposes. The seed’s crystal structure may not always match the daughter zeolite’s. For example, zeolite CHA seeds speed-up 24-fold zeolite AFI’s synthesis. It was proposed that structural elements in CHA promote AFI nucleation. However, these zeolites do not have a common crystal plane or composite building units (CBUs). Here we present the first molecularly resolved investigation of mechanism of seed assisted zeolite syn-thesis. We use molecular simulations to elucidate how CHA promotes AFI. Consistent with experiments, we find that CHA increases AFI’s nucleation 24-fold. The speed up arises from cross-nucleation of AFI on the (001) face of CHA. The CHA/AFI interface is connected by an interfacial transition layer with order distinct from par-ent and daughter. We find that stand-alone CBUs of CHA do not assist in AFI nucleation, implying that the integrity of the crystalline seed is key for increased effi-ciency and selectivity in zeolite synthesis.
Supplementary materials
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Supplementary Materials
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Methods, Supplementary Results, Supplementary Figures.
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Title
Supporting Movie
Description
View of the ordering of the amorphous mixture at the zeolite CHA (001) face to produce an interfacial transition layer (green) over which zeolite AFI' nucleates (red)
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