The hydration of ions in nanoscale hydrated clusters is ubiquitous and essential in many physical and chemical processes. Here we show that the hydrolysis reaction is strongly affected by relative humidity. The hydrolysis of CO with n = 1-8 water molecules is investigated using an ab initio method. For n = 1-5 water molecules, all the reactants follow a stepwise pathway to the transition state. For n = 6-8 water molecules, all the reactants undergo a direct proton transfer to the transition state with overall lower activation free energy. The activation free energy of the reaction is dramatically reduced from 10.4 to 2.4 kcal mol as the number of water molecules increases from 1 to 6. Meanwhile, the degree of hydrolysis of CO is significantly increased compared to the bulk water solution scenario. Incomplete hydration shells facilitate the hydrolysis of CO with few water molecules to be not only thermodynamically favorable but also kinetically favorable. We showed that the chemical kinetics is not likely to constrain the speed of CO air capture driven by the humidity-swing. Instead, the pore-diffusion of ions is expected to be the time-limiting step in the humidity driven CO air capture. The effect of humidity on the speed of CO air capture was studied by conducting a CO absorption experiment using IER with a high ratio of CO to HO molecules. Our result is able to provide valuable insights into designing efficient CO air-capture sorbents.
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