White fluorescence of polyaromatics derived from methanol conversion in Ca2+-exchanged small-pore zeolites

Coronene and its derivatives were synthesized using methanol inside Ca2+ ion-exchanged small-pore zeolites with an 8-membered ring window, such as LTA and RHO zeolites. The polyaromatic hydrocarbon product exhibited white fluorescence under a UV light excitation, as characterized by UV-Vis absorption and fluorescence spectra, and fluorescence microscopic images. The formation of coronene and even larger polyaromatics from methanol could be attributed to that Ca2+ ions, unlike hydroxyl protons of acidic zeolite frameworks, effectively attract π-electron clouds of benzene rings of small polycyclic intermediates with no disruption of the aromaticity, which leads to the rapid growth of the aromatic ring system. The molecular dimensions of the resultant polyaromatic product were determined by the confined α-cages of the LTA and RHO zeolites. This phenomenon could be extended to CHA zeolite with smaller pore sizes, restricting the molecular growth more severely than the cases of the LTA and RHO zeolites.