Differencesin the Location of Guest Molecules withinZeolite Pores As Revealed by Multilaser Excitation Confocal FluorescenceMicroscopy: Which Molecule Is Where?

摘要

A detailed and systematic polarized confocal fluorescence microscopy investigation is presented on three batches of large coffin-shaped ZSM-5 crystals (i.e., parent, steamed at 500 °C, and steamed at 700 °C). In total, six laser lines of different wavelength in the visible region are employed on two crystal positions and three orientations with respect to the polarization plane of the excitation laser light. A fluorescent probe molecule is generated inside the zeolite pores, originating from the acid-catalyzed oligomerization of 4-fluorostyrene. A thorough analysis of the polarization plane of emitting fluorescent light reveals insight into the orientation of the fluorescent probe molecule restricted by the highly ordered zeolite channel framework, thereby visualizing pore accessibility and clearly distinguishing the occupation of straight and sinusoidal channels by the probe molecule. Spectral features are, furthermore, observed to tell apart molecules situated in one or the other pore. Special focus was given on the rim and tip regions of the zeoliteZSM-5 crystals. On the basis of the confocal approach of the investigation,the aforementioned features are evaluated in three dimensions, whilethe degradation of the zeolite framework upon postsynthesis steamtreatment could be visualized by occupation of the sinusoidal pores.