Ultrafast Electron Diffraction Tomography for Structure Determination of the New Zeolite ITQ-58
Journal of the American Chemical Society 138(32): 10116-10119
Article 2016 English
Authors
JS
Jorge Simancas
RS
Raquel Simancas
PB
Pablo J. Bereciartua
Abstract
1 min read
In this work a new ultrafast data collection strategy for electron diffraction tomography is presented that allows reducing data acquisition time by one order of magnitude. This methodology minimizes the radiation damage of beam-sensitive materials, such as microporous materials. This method, combined with the precession of the electron beam, provides high quality data enabling the determination of very complex structures. Most importantly, the implementation of this new electron diffraction methodology is easily affordable in any modern electron microscope. As a proof of concept, we have solved a new highly complex zeolitic structure named ITQ-58, with a very low symmetry (triclinic) and a large unit cell volume (1874.6 Å(3)), containing 16 silicon and 32 oxygen atoms in its asymmetric unit, which would be very difficult to solve with the state of the art techniques.
Lindiane Bieseki, Raquel Simancas, J.L. Jordá, Pablo J. Bereciartua, Ángel Cantı́n, Jorge Simancas, Sibele B. C. Pergher, Susana Valencia, Fernando Rey, Avelino Avelino
Khalid M. Siddiqui, Daniel B. Durham, Frederick Cropp, Fuhao Ji, Sergio Paiagua, Colin Ophus, Nord Andresen, L. Jin, Junqiao Wu, Sheng Wang, X. Zhang, Wenjing You, Margaret M. Murnane, Martin Centurion, X. Wang, Daniel Slaughter, Robert A. Kaindl, P. Musumeci, Andrew M. Minor, D. Filippetto
Khalid M. Siddiqui, Daniel B. Durham, Frederick Cropp, Fuhao Ji, Sergio Paiagua, Colin Ophus, Nord Andresen, L. Jin, Junqiao Wu, Sheng Wang, X. Zhang, Wenjing You, M. M. Murnane, Martin Centurion, X. Wang, Daniel Slaughter, Robert A. Kaindl, P. Musumeci, A. M. Minor, D. Filippetto
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