Diagnosing the Internal Architecture of Zeolite Ferrierite.
Joel E SchmidtFrank C HendriksMartin LutzL Christiaan PostDonglong FuBert M WeckhuysenPublished in: Chemphyschem : a European journal of chemical physics and physical chemistry (2017)
Large crystals of zeolite ferrierite (FER) are important model systems for spatially resolved catalysis and diffusion studies, though there is considerable variation in crystal habit depending on the chemical composition and employed synthesis conditions. A synergistic combination of techniques has been applied, including single crystal X-ray diffraction, high-temperature in situ confocal fluorescence microscopy, fluorescent probe molecules, wide-field microscopy and atomic force microscopy to unravel the internal architecture of three distinct FER zeolites. Pyrolyzed template species can be used as markers for the 8-membered ring direction as they are trapped in the terraced roof of the FER crystals. This happens as the materials grow in a layer-by-layer, defect-free manner normal to the large crystal surface, and leads to a facile method to diagnose the pore system orientation, which avoids tedious single crystal X-ray diffraction experiments.
Keyphrases
- single molecule
- atomic force microscopy
- high resolution
- high speed
- fluorescent probe
- living cells
- high temperature
- electron microscopy
- optical coherence tomography
- solid state
- high throughput
- room temperature
- crystal structure
- label free
- gold nanoparticles
- magnetic resonance imaging
- mass spectrometry
- magnetic resonance
- molecularly imprinted
- cancer therapy
- single cell
- genetic diversity