Chemical Imaging of Hierarchical Porosity Formation within a Zeolite Crystal Visualized by Small-Angle X-Ray Scattering and In-Situ Fluorescence Microscopy

Filez Matthias; Vesely Martin; Garcia-Torregrosa Ivan; Gambino Marianna; Attila Oezguen; Meirer Florian; Katrukha Eugene A.; Roeffaers Maarten B. J.; Garrevoet Jan; Kapitein Lukas C.; Weckhuysen Bert M.

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Chemical Imaging of Hierarchical Porosity Formation within a Zeolite Crystal Visualized by Small-Angle X-Ray Scattering and In-Situ Fluorescence Microscopy

机译：通过小角X射线散射和原位荧光显微镜观察沸石晶体中的分层孔隙率形成的化学成像

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Introducing hierarchical porosity to zeolites is vital for providing molecular access to microporous domains. Yet, the dynamics of meso- and macropore formation has remained elusive and pore space ill-characterized by a lack of (in situ) microscopic tools sensitive to nanoporosity. Here, we probe hierarchical porosity formation within a zeolite ZSM-5 crystal in real-time by in situ fluorescence microscopy during desilication. In addition, we introduce small-angle X-ray scattering microscopy as novel characterization tool to map intracrystal meso- and macropore properties. It is shown that hierarchical porosity formation initiates at the crystal surface and propagates to the crystal core via a pore front with decreasing rate. Also, hierarchical porosity only establishes in specific (segments of) subunits which constitute ZSM-5. Such spacedependent meso- and macroporosity implies local discrepancies in diffusion, performance and deactivation behaviors even within a zeolite crystal.

机译：在分子筛上引入分级孔隙率对于提供进入微孔结构域的分子途径至关重要。然而，中孔和大孔形成的动力学仍然难以捉摸，孔隙空间的特征是缺乏（原位）对纳米孔隙敏感的微观工具。在这里，我们在脱硅过程中通过原位荧光显微镜实时探测ZSM-5沸石晶体内分层孔隙的形成。此外，我们还介绍了小角X射线散射显微镜作为一种新的表征工具，用于绘制晶体内的中孔和大孔特性。结果表明，分级孔隙率的形成始于晶体表面，并通过孔隙率降低的孔隙率前沿传播到晶体核心。此外，层次孔隙度仅建立在构成ZSM-5的特定（片段）亚单位中。这种依赖于空间的中孔和大孔意味着即使在沸石晶体中，扩散、性能和失活行为也存在局部差异。

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《Angewandte Chemie》 |2021年第25期|共4页
作者
Filez Matthias; Vesely Martin; Garcia-Torregrosa Ivan; Gambino Marianna; Attila Oezguen; Meirer Florian; Katrukha Eugene A.; Roeffaers Maarten B. J.; Garrevoet Jan; Kapitein Lukas C.; Weckhuysen Bert M.;
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作者单位

Univ Utrecht Debye Inst Nanomat Sci Inorgan Chem &

Catalysis Univ Weg 99 NL-3584 CG Utrecht Netherlands;

Univ Utrecht Debye Inst Nanomat Sci Inorgan Chem &

Catalysis Univ Weg 99 NL-3584 CG Utrecht Netherlands;

Univ Utrecht Debye Inst Nanomat Sci Inorgan Chem &

Catalysis Univ Weg 99 NL-3584 CG Utrecht Netherlands;

Univ Utrecht Debye Inst Nanomat Sci Inorgan Chem &

Catalysis Univ Weg 99 NL-3584 CG Utrecht Netherlands;

Univ Utrecht Debye Inst Nanomat Sci Inorgan Chem &

Catalysis Univ Weg 99 NL-3584 CG Utrecht Netherlands;

Univ Utrecht Debye Inst Nanomat Sci Inorgan Chem &

Catalysis Univ Weg 99 NL-3584 CG Utrecht Netherlands;

Univ Utrecht Cell Biol Neurobiol &

Biophys Fac Sci Padualaan 8 NL-3584 CH Utrecht Netherlands;

Katholieke Univ Leuven Dept Microbial &

Mol Syst Ctr Membrane Separat Adsorpt Catalysis &

Spect Su Celestijnenlaan 200F B-3001 Leuven Belgium;

Deutsch Elektronen Synchrotron DESY Notkestr 85 D-22607 Hamburg Germany;

Univ Utrecht Cell Biol Neurobiol &

Biophys Fac Sci Padualaan 8 NL-3584 CH Utrecht Netherlands;

Univ Utrecht Debye Inst Nanomat Sci Inorgan Chem &

Catalysis Univ Weg 99 NL-3584 CG Utrecht Netherlands;

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正文语种 eng
中图分类应用化学;
关键词
desilication; hierarchical nanoporosity; in situ fluorescence microscopy; small-angle X-ray scattering microscopy; zeolite;

机译：脱硅;分级纳米孔隙率;原位荧光显微镜;小角X射线散射显微镜;沸石;

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Chemical Imaging of Hierarchical Porosity Formation within a Zeolite Crystal Visualized by Small-Angle X-Ray Scattering and In-Situ Fluorescence Microscopy

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