Simultaneous Reduction and Oxidation of NO <sub>2</sub> on Water Microdroplets Provides Previously Unknown Pathways to the Formation of HONO and HNO <sub>3</sub>
Huan Chen, Xu Yuan, Jianze Zhang, X. Chen, Joseph S. Francisco, Yifan Meng, Xinxing Zhang
Abstract
HONO and HNO 3 are important atmospheric species, yet their formation pathways in the atmosphere remain uncertain. In this study, we report the simultaneous formation of HONO and HNO 3 at the air–water interface of water microdroplets in the presence of trace amounts of NO 2 . Water microdroplets were generated either in ambient air or in a glovebox where the gas content could be precisely controlled. The products generated by the microdroplets and surrounding gas were directly analyzed with mass spectrometers. Our results indicated that NO 2 gas could be reduced by an electron to form NO 2 –, which was further protonated to yield HONO, or could be oxidized by a hydroxyl radical (·OH) to form HNO 3 . Electrons and ·OH were produced by a strong electric field that facilitated OH – dissociation at the air–water interface of the microdroplets. Tandem mass spectrometry, isotope labeling, and chemical ionization methods confirmed the formation of neutral HONO and HNO 3 . Our results provide a previously unknown pathway for the formation of HONO and HNO 3 in the troposphere.