Diffusion and Crystallization of Dichloromethane within the Pores of Amorphous Solid Water

Dichloromethane (CH2Cl2) thin films deposited on Ru(0001) at low temperatures (similar to 80 K or lower) undergo a phase transition at similar to 95 K, manifested by the splitting of its wagging mode at 1265 cm(-1), due to factor group splitting. This splitting occurs at relatively higher temperatures (similar to 100 K) when amorphous solid water (ASW) is deposited over it, with a significant reduction in intensity of the high-wavenumber component (of the split peaks). Control experiments showed that the intensity of the higher wave number peak is dependent on the thickness of the water overlayer. It is proposed that diffusion of CH2Cl2 into ASW occurs and it crystallizes within the pores of ASW, which increases the transition temperature. However, the dimensions of the CH2Cl2 crystallites get smaller with increasing thickness of ASW with concomitant change in the intensity of the factor group split peak. Control experiments support this suggestion. We propose that the peak intensities can be correlated with the porosity of the ice film. Diffusion of CH2Cl2 has been supported by low-energy Cs+ scattering and temperature-programmed desorption spectroscopies.