Understanding the Formation and Growth of New Atmospheric Particles at the Molecular Level through Laboratory Molecular Beam Experiments

成核 星团(航天器) 化学物理 粒子(生态学) 表征(材料科学) 纳米技术 硫酸 化学 材料科学 分子 有机化学 海洋学 计算机科学 程序设计语言 地质学
作者
Yadong Wang,Shiyu Zhan,Yongjun Hu,Xi Chen,Shi Yin
出处
期刊:Collection of Czechoslovak Chemical Communications [Wiley]
卷期号:89 (7)
标识
DOI:10.1002/cplu.202400108
摘要

Abstract Atmospheric new particle formation (NPF), which exerts comprehensive implications for climate, air quality and human health, has received extensive attention. From molecule to cluster is the initial and most important stage of the nucleation process of atmospheric new particles. However, due to the complexity of the nucleation process and limitations of experimental characterization techniques, there is still a great uncertainty in understanding the nucleation mechanism at the molecular level. Laboratory‐based molecular beam methods can experimentally implement the generation and growth of typical atmospheric gas‐phase nucleation precursors to nanoscale clusters, characterize the key physical and chemical properties of clusters such as structure and composition, and obtain a series of their physicochemical parameters, including association rate coefficients, electron binding energy, pickup cross section and pickup probability and so on. These parameters can quantitatively illustrate the physicochemical properties of the cluster, and evaluate the effect of different gas phase nucleation precursors on the formation and growth of atmospheric new particles. We review the present literatures on atmospheric cluster formation and reaction employing the experimental method of laboratory molecular beam. The experimental apparatuses were classified and summarized from three aspects of cluster generation, growth and detection processes. Focus of this review is on the properties of nucleation clusters involving different precursor molecules of water, sulfuric acid, nitric acid and N x O y , respectively. We hope this review will provide a deep insight for effects of cluster physicochemical properties on nucleation, and reveal the formation and growth mechanism of atmospheric new particle at the molecular level.
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