Spectroscopic, ab initio, and Smog-Chamber Studies of Molecular Aggregates

分子聚集体的光谱、从头算和烟雾室研究

• 批准号: RGPIN-2018-05782
• 负责人: Jäger, Wolfgang
• 金额: $ 6.85万
• 依托单位: University of Alberta
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2020
• 资助国家: 加拿大
• 起止时间: 2020-01-01 至 2021-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=713129
• 关键词: Spectroscopic; ab; initio; Smog; Chamber

The research proposal describes a program to study molecular aggregates, which are of relevance to atmospheric chemistry, spanning size regimes from the microscopic, molecular world to the nano-scale. The proposed studies on smaller complexes and clusters are enabled by revolutionary advances in high-resolution rotational spectroscopy in terms of both the development of powerful spectroscopic techniques and developments of effective software to aid in the complex spectroscopic assignment processes. At the heart of theses studies is the characterization of 'critical nuclei', which play a crucial role in the formation and growth of atmospheric aerosol particles. These critical nuclei are thought to consist of several molecules, including organic acids, sulfuric acid, and water, but 'microscopic', spectroscopic analyses have thus far not been provided. Helium nanodroplets can consist of about a thousand to millions of helium atoms, attain a temperature of ~0.4 K, and are superfluid. These properties make them an 'ideal' matrix to study not only unstable molecules, but also low-temperature reactions. Many atmospheric reactions involve radicals and are barrier-less or have low barriers. In addition to radical reactions, for example, between tolyl radical and molecular oxygen, we will also investigate photo-induced reactions. An example is the photo-induced decomposition of oxalic acid, the most abundant dicarboxylic acid in the atmosphere, which could be a major atmospheric sink for this type of compounds. Even larger systems, namely secondary organic aerosol particles and soot particles, will be studied using a photo-reaction or 'smog' chamber. Soot particles are produced in incomplete fossil fuel combustion, for example, and are emitted in great quantities into the atmosphere. Of particular interest is the ageing process of soot particles. Atmospheric soot can be coated with secondary organic aerosol, perhaps produced from organic material also released during fossil fuel burning. This coating changes not only the surface properties of the particle but the increased surface tension causes a collapse of the soot core. Both coating and collapse lead to changes in optical properties and affect the contributions of soot particles to radiative forcing. The proposed research will lead to greater insights into atmospheric processes, including aerosol particle growth and ageing, and the results will have impact on atmospheric modelling and will likely reduce the uncertainties associated with the direct and indirect effects of aerosol on the global climate.

该研究提案描述了一个研究分子聚集体的方案，这些聚集体与大气化学有关，跨越了从微观分子世界到纳米尺度的大小范围。拟议的研究较小的复合物和集群的革命性进展，在高分辨率旋转光谱的发展方面的强大的光谱技术和有效的软件的发展，以帮助在复杂的光谱分配过程。这些研究的核心是“临界核”的表征，它在大气气溶胶颗粒的形成和增长中起着至关重要的作用。这些临界核被认为是由几种分子组成的，包括有机酸、硫酸和水，但迄今为止还没有提供“显微镜”的光谱分析。 氦纳米液滴可以由大约一千到数百万个氦原子组成，达到约0.4 K的温度，并且是超流体。这些性质使它们成为研究不稳定分子和低温反应的“理想”基质。许多大气反应涉及自由基，并且是无势垒的或具有低势垒。除了自由基反应，例如，甲苯基和分子氧之间，我们还将研究光诱导反应。一个例子是草酸的光致分解，草酸是大气中最丰富的二羧酸，可能是这类化合物的主要大气汇。 甚至更大的系统，即二次有机气溶胶颗粒和烟尘颗粒，将使用光反应或“烟雾”室进行研究。例如，在化石燃料的不完全燃烧中产生烟尘颗粒，并将其大量排放到大气中。特别令人感兴趣的是烟灰颗粒的老化过程。大气中的煤烟可能覆盖着二次有机气溶胶，可能是由化石燃料燃烧过程中释放的有机物质产生的。这种涂层不仅改变了颗粒的表面性质，而且增加的表面张力导致烟炱核的塌陷。覆盖和塌陷都导致光学性质的变化，并影响烟尘粒子对辐射强迫的贡献。 拟议的研究将使人们更深入地了解大气过程，包括气溶胶颗粒的增长和老化，研究结果将对大气建模产生影响，并可能减少与气溶胶对全球气候的直接和间接影响有关的不确定性。