Formation Mechanisms of Iodine-Ammonia Clusters in Polluted Coastal Areas Unveiled by Thermodynamics and Kinetic Simulations.

It has been revealed that iodine species play important roles in atmospheric new particle formations (NPFs) in pristine coastal areas. However, it is unclear whether other atmospheric species, such as NH ₃ , for which the levels in coastal areas of China are >2.5 × 10 ¹⁰ molecules·cm ^-3 are involved in the NPFs of iodine species, although NH ₃ has been proved to promote particle formation of H ₂ SO ₄ . Via high-level quantum chemical calculations and atmospheric cluster dynamic code simulations, this study unveiled new mechanisms of nucleation, in which NH ₃ mediates the formation of iodine particles by assisting hydrolysis of I ₂ O ₅ or reacting with HIO ₃ . The simulated formation rates of iodine-ammonia clusters via the new mechanisms are much higher than those simulated via sequential addition of HIO ₃ with subsequent release of H ₂ O, under the condition that NH ₃ concentrations are higher than 10 ¹⁰ molecules·cm ^-3 . The new mechanisms can well explain the observed cluster formation rates at a coastal site in Zhejiang of China. The findings not only expand the current understandings of the role of NH ₃ in NPFs but also highlight the importance of monitoring and evaluating NPFs via the iodine-ammonia cluster pathway in the coastal areas of China and other regions worldwide.