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Meera Shete Manjesh Kumar Dr. Donghun Kim Neel Rangnekar Dandan Xu Prof. Berna Topuz Dr. Kumar Varoon Agrawal Evguenia Karapetrova Prof. Benjamin Stottrup Prof. Shaeel Al‐Thabaiti Prof. Sulaiman Basahel Dr. Katabathini Narasimharao Prof. Jeffrey D. Rimer Prof. Michael Tsapatsis 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2017,129(2):550-554
Nanoscale crystal growth control is crucial for tailoring two‐dimensional (2D) zeolites (crystallites with thickness less than two unit cells) and thicker zeolite nanosheets for applications in separation membranes and as hierarchical catalysts. However, methods to control zeolite crystal growth with nanometer precision are still in their infancy. Herein, we report solution‐based growth conditions leading to anisotropic epitaxial growth of 2D zeolites with rates as low as few nanometers per day. Contributions from misoriented surface nucleation and rotational intergrowths are eliminated. Growth monitoring at the single‐unit‐cell level reveals novel nanoscale crystal‐growth phenomena associated with the lateral size and surface curvature of 2D zeolites. 相似文献
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Dario Braga Lucia Maini Fabrizia Grepioni 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》1998,110(16):2365-2366
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Penghao Li Peng Li Matthew R. Ryder Zhichang Liu Charlotte L. Stern Omar K. Farha J. Fraser Stoddart 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2019,131(6):1678-1683
We describe an example of “interpenetration isomerism” in three‐dimensional hydrogen‐bonded organic frameworks. By exploiting the crystallization conditions for a peripherally extended triptycene H6PET, we can modulate the interpenetration of the assembled frameworks, yielding a two‐fold interpenetrated structure PETHOF‐ 1 and a five‐fold interpenetrated structure PETHOF‐ 2 as interpenetration isomers. In PETHOF‐ 1 , two individual nets are related by inversion symmetry and form an interwoven topology with a large guest‐accessible volume of about 80 %. In PETHOF‐ 2 , five individual nets are related by translational symmetry and are stacked in an alternating fashion. The activated materials show permanent porosity with Brunauer‐Emmett‐Teller surface areas exceeding 1100 m2 g?1. Synthetic control over the framework interpenetration could serve as a new strategy to construct complex supramolecular architectures from simple organic building blocks. 相似文献
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