Spectroscopic characterization of Brooker’s merocyanine in Silicalite-1 and ZSM-5 leading to second harmonic generation

Abstract

The use of porous materials has become increasingly significant in the pursuit of novel composite materials with nonlinear optical properties. The microporous channels in Silicalite-1 and ZSM-5, which have identical crystal frameworks but different chemical composition, were used to study the role of zeolite composition on dye adsorption and organization, leading to second-harmonic generation (SHG). The dye molecule, known as Brooker’s merocyanine (4-[(1-methyl-4(1H)-pyridinylidene)ethylidene]-2,5-cyclohexadien-1-one), exhibits one of the largest known molecular hyperpolarizabilities for small dye molecules, but it crystallizes centrosymmetrically. When Brooker’s merocyanine was adsorbed to Silicalite-1 powder, no SHG was detected, but when adsorbed to ZSM-5, the powder was SHG-active. Spectroscopic characterization of the new materials was used to determine the dye loading in each zeolite. The hydrophilic ZSM-5 channels proved to be essential for dye adsorption and alignment within the channels as compared to the hydrophobic Silicalite-1 which did not appreciably adsorb the dye. The effect of dye protonation and isomerization on adsorption to each zeolite was also studied, with neither having an effect on the amount of dye adsorbed.