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Interface induced growth and transformation of polymer-conjugated proto-crystalline phases in aluminosilicate hybrids: a multiple-quantum 23Na-23Na MAS NMR correlation spectroscopy study
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SYSNO ASEP 0458292 Document Type J - Journal Article R&D Document Type Journal Article Subsidiary J Článek ve WOS Title Interface induced growth and transformation of polymer-conjugated proto-crystalline phases in aluminosilicate hybrids: a multiple-quantum 23Na-23Na MAS NMR correlation spectroscopy study Author(s) Brus, Jiří (UMCH-V) RID, ORCID
Kobera, Libor (UMCH-V) RID, ORCID
Urbanová, Martina (UMCH-V) RID, ORCID
Doušová, B. (CZ)
Lhotka, M. (CZ)
Koloušek, D. (CZ)
Kotek, Jiří (UMCH-V) RID
Čuba, P. (CZ)
Czernek, Jiří (UMCH-V) RID
Dědeček, Jiří (UFCH-W) RID, ORCIDSource Title Langmuir. - : American Chemical Society - ISSN 0743-7463
Roč. 32, č. 11 (2016), s. 2787-2797Number of pages 11 s. Language eng - English Country US - United States Keywords aluminosilicate hybrids ; hybrid geopolymers ; interface Subject RIV CD - Macromolecular Chemistry Subject RIV - cooperation J. Heyrovsky Institute of Physical Chemistry - Physical ; Theoretical Chemistry R&D Projects GA13-24155S GA ČR - Czech Science Foundation (CSF) LD14010 GA MŠMT - Ministry of Education, Youth and Sports (MEYS) LO1507 GA MŠMT - Ministry of Education, Youth and Sports (MEYS) Institutional support UMCH-V - RVO:61389013 ; UFCH-W - RVO:61388955 UT WOS 000372856800030 EID SCOPUS 84962167818 DOI 10.1021/acs.langmuir.5b04736 Annotation Nanostructured materials typically offer enhanced physicochemical properties because of their large interfacial area. In this contribution, we present a comprehensive structural characterization of aluminosilicate hybrids with polymer-conjugated nanosized zeolites specifically grown at the organic–inorganic interface. The inorganic amorphous Al–O–Si framework is formed by alkali-activated low-temperature transformation of metakaoline, whereas simultaneous copolymerization of organic comonomers creates a secondary epoxide network covalently bound to the aluminosilicate matrix. This secondary epoxide phase not only enhances the mechanical integrity of the resulting hybrids but also introduces additional binding sites accessible for compensating negative charge on the aluminosilicate framework. This way, the polymer network initiates growth and subsequent transformation of protocrystalline short-range ordered zeolite domains that are located at the organic–inorganic interface. By applying an experimental approach based on 2D 23Na–23Na double-quantum (DQ) MAS NMR spectroscopy, we discovered multiple sodium binding sites in these protocrystalline domains, in which immobilized Na+ ions form pairs or small clusters. It is further demonstrated that these sites, the local geometry of which allows for the pairing of sodium ions, are preferentially occupied by Pb2+ ions during the ion exchange. The proposed synthesis protocol thus allows for the preparation of a novel type of geopolymer hybrids with polymer-conjugated zeolite phases suitable for capturing and storage of metal cations. The demonstrated 23Na–23Na DQ MAS NMR combined with DFT calculations represents a suitable approach for understanding the role of Na+ ions in aluminositicate solids and related inorganic–organic hybrids, particularly their specific arrangement and clustering at interfacial areas. Workplace Institute of Macromolecular Chemistry Contact Eva Čechová, cechova@imc.cas.cz ; Tel.: 296 809 358 Year of Publishing 2017
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