Probing the Mechanochemistry of Metal–Organic Frameworks with Low-Frequency Vibrational Spectroscopy

Abstract

The identification and characterization of low-frequency vibrational motions of metal–organic frameworks (MOFs) allows for a better understanding of their mechanical and structural response upon perturbation by external stimuli such as temperature, pressure, and adsorption. Here, we describe the combination of temperature- and pressure-dependent terahertz spectroscopy measurements with quantum mechanical simulations to measure and assign specific low-frequency vibrational modes that directly drive the mechanochemical properties of this important class of porous materials. More specifically, we identify intense spectral features in the terahertz region of the vibrational spectrum of ZIF-8 which are directly connected to its mechanochemical response. In particular, we find that the mechanical compressibility of pristine ZIF-8 follows a peculiar nonlinear trend upon pressure: its bulk modulus initially increases up to 0.1 GPa and decreases at higher pressures, which is simultaneously reflected in the teraher...