Add to ORKGIntroducing 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, hierarchi...
International audienceThe improvement of molecular transport properties of hierarchical H-ZSM-5 obta...
Confocal fluorescence microscopy has been used in combination with bulky non-reactive dyes (i.e. pro...
Confocal fluorescence microscopy has been used in combination with bulky non-reactive dyes (i.e. pro...
Introducing hierarchical porosity to zeolites is vital for providing molecular access to microporous...
Introducing hierarchical porosity to zeolites is vital for providing molecular access to microporous...
Spatial restrictions around catalytic sites, provided by molecular-sized micropores, are beneficial ...
A combination of optical and fluorescence microscopy was used to study the morphology of micro- and ...
Zeolites are the catalytic workhorses of the refinery and chemicals production industry. Their inher...
A micro-spectroscopic method has been developed to probe the accessibility of zeolite crystals using...
Mass transfer can be enhanced by introducing mesopores (2–50 nm) or macropores (>50 nm) to zeolites ...
The development of intracrystalline mesoporosity within zeolites has been a long-standing goal in ca...
The catalytic performance of microporous materials such as zeolites is determined not only by the ac...
Recently the concept of hierarchical zeolites invoked more explicit attention to enhanced accessibil...
International audienceThe improvement of molecular transport properties of hierarchical H-ZSM-5 obta...
Confocal fluorescence microscopy has been used in combination with bulky non-reactive dyes (i.e. pro...
Confocal fluorescence microscopy has been used in combination with bulky non-reactive dyes (i.e. pro...
Introducing hierarchical porosity to zeolites is vital for providing molecular access to microporous...
Introducing hierarchical porosity to zeolites is vital for providing molecular access to microporous...
Spatial restrictions around catalytic sites, provided by molecular-sized micropores, are beneficial ...
A combination of optical and fluorescence microscopy was used to study the morphology of micro- and ...
Zeolites are the catalytic workhorses of the refinery and chemicals production industry. Their inher...
A micro-spectroscopic method has been developed to probe the accessibility of zeolite crystals using...
Mass transfer can be enhanced by introducing mesopores (2–50 nm) or macropores (>50 nm) to zeolites ...
The development of intracrystalline mesoporosity within zeolites has been a long-standing goal in ca...
The catalytic performance of microporous materials such as zeolites is determined not only by the ac...
Recently the concept of hierarchical zeolites invoked more explicit attention to enhanced accessibil...
International audienceThe improvement of molecular transport properties of hierarchical H-ZSM-5 obta...
Confocal fluorescence microscopy has been used in combination with bulky non-reactive dyes (i.e. pro...
Confocal fluorescence microscopy has been used in combination with bulky non-reactive dyes (i.e. pro...