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Atomic-scale insights into topotactic transformations in an extra-large-pore zeolite using time-resolved 3D electron diffraction

Yi Luo, Hao Xu, Yue Han, Tong Wen, Meichen Jiao, Naihong Wang, Jinpeng Jiang, Wende Hu, Chuanming Wang, Xiaodong Zou, Peng Wu

2025Nature Synthesis16 citationsDOIOpen Access PDF

Abstract

Abstract Understanding the atomic-scale structural dynamics of phase transformations is crucial for developing materials and tailoring their properties. However, many materials are obtained as polycrystalline powders with large unit cells and/or complex structures, making it challenging to investigate detailed structural changes using conventional X-ray diffraction techniques. Here we employ time-resolved three-dimensional electron diffraction to reveal the topotactic reactions and transformations that convert the extra-large-pore silicate zeolite ECNU-45 into ECNU-46. ECNU-45 features three-dimensional interconnecting 24 × 10 × 10-ring channels, while ECNU-46 consists of one-dimensional 24-ring channels connected to 10-ring pockets. ECNU-45 and ECNU-46 are both examples of pure silicate zeolites with pore openings larger than 22-ring. Our findings indicate changes at six distinct tetrahedral silicon sites, involving atom displacement, addition and removal of framework atoms through bond breakage and formation. This work presents the synthesis of zeolites and also provides atomic-level insights into the dynamic processes of topotactic reactions. Our results have implications for advancing materials engineering and understanding complex solid-state reactions at an atomic scale.

Topics & Concepts

ZeoliteAtomic unitsElectron diffractionDiffractionElectronMaterials scienceScale (ratio)CrystallographyChemical physicsNanotechnologyChemical engineeringChemistryPhysicsOpticsCatalysisEngineeringOrganic chemistryQuantum mechanicsZeolite Catalysis and SynthesisX-ray Diffraction in CrystallographyMachine Learning in Materials Science