Sarin Decomposition on Pristine and Hydroxylated ZnO: Quantum-Chemical Modeling

An atomistic understanding of interactions between chemical warfare agents (CWAs) and filter materials is crucial for discovery and design of new materials suitable for chemical protection. The high toxicity of CWAs is a major barrier for experimental studies and significantly impedes the development of improved filter materials. Our recent studies show that density functional theory-based modeling serves as a powerful companion to experimental studies and assists in interpretation of experiments performed on surface-enhanced degradation of CWA simulant compounds. A strong synergy between theory and experiment enables predictive modeling of interactions of toxic CWAs with filter materials. Here, we present a comprehensive study of sarin adsorption and decomposition on pristine and hydroxylated ZnO(1010) surfaces performed by means of quantum-chemical calculations. We found that both simulated ZnO surfaces (an idealized pristine surface and hydroxylated surface, a more realistic and relevant form of ZnO a...