Revealing the Effect of Anions on the Formation and Transformation of Zeolite LTA in Caustic solutions: An In Situ Synchrotron PXRD Study

Sicheng Wang; James Vaughan; Fang Xia; Barbara Etschmann; Joel Brugger; Helen Brand; Hong Peng

doi:10.1021/acs.cgd.3c00106

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Revealing the Effect of Anions on the Formation and Transformation of Zeolite LTA in Caustic solutions: An In Situ Synchrotron PXRD Study

Journal article

Peer reviewed

Revealing the Effect of Anions on the Formation and Transformation of Zeolite LTA in Caustic solutions: An In Situ Synchrotron PXRD Study

Sicheng Wang, James Vaughan, Fang Xia, Barbara Etschmann, Joel Brugger, Helen Brand and Hong Peng

Crystal growth & design, Vol.23(5), pp.3660-3670

2023

DOI: https://doi.org/10.1021/acs.cgd.3c00106

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Abstract

Chemistry

Chemistry, Multidisciplinary

Crystallography

Materials Science

Materials Science, Multidisciplinary

Physical Sciences

Science & Technology

Technology

Zeolite LTA is one of the largest industrial zeolites in both volume and market value. Natural resources or manufacturing wastes such as clay minerals, fly ash, and lithium slag are now used as raw materials for the economically and environmentally friendly synthesis of zeolites. However, soluble impurities such as inorganic anions (CO32-, SO42-, and PO43-) in these feeds have significant effects on the quality of zeolite LTA products, because these impurities enhance or inhibit the formation of other unwanted phases (amorphous zeolites or sodalite) via mechanisms that remain poorly investigated. Here we use in situ synchrotron powder X-ray diffraction to study the effects of different inorganic salts (Na2CO3, Na2SO4, and Na3PO4) on the kinetics of the sequential phase transformations in zeolite LTA during 2.5 h of reaction at 90 degrees C in both weakly and highly alkaline solutions. The results show that different salts have no effects on the amorphous phase formation stage but do affect the zeolite or sodalite crystallization stage. The addition of Na2CO3 increases the dissolution rate of zeolite, but it barely promotes the crystallization rate of sodalite. The addition of Na3PO4 inhibits sodalite crystallization, whereas the addition of Na2SO4 is most effective in facilitating sodalite formation and improving final sodalite particle size. Also, SO42--bearing sodalite has a larger unit cell than other types of sodalites. These outcomes suggest that both CO32- and SO42- have negative effects on stabilizing zeolite LTA phases but PO43- has positive effects on these products.

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Title: Revealing the Effect of Anions on the Formation and Transformation of Zeolite LTA in Caustic solutions: An In Situ Synchrotron PXRD Study
Authors/Creators: Sicheng Wang - The University of Queensland
James Vaughan - The University of Queensland
Fang Xia - Monash University
Barbara Etschmann - Monash University
Joel Brugger - Monash University
Helen Brand - Australian Synchrotron
Hong Peng - The University of Queensland
Publication Details: Crystal growth & design, Vol.23(5), pp.3660-3670
Publisher: American Chemical Society
Number of pages: 11
Grant note: AS221/PD/18228 / Australian Synchrotron AQIRF014-2019RD2 / Queensland Government through an Advance Queensland Industry Research Fellowship
Identifiers: 991005598268807891
Murdoch Affiliation: Harry Butler Institute; Centre for Water, Energy and Waste
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration
Citation topics: 2 Chemistry; 2.41 Catalysts; 2.41.144 Zeolite Catalysis
Web Of Science research areas: Chemistry, Multidisciplinary; Crystallography; Materials Science, Multidisciplinary
ESI research areas: Chemistry