喷雾水微滴中含有的溶解吡啶会自发产生吡啶阴离子。

Sprayed water microdroplets containing dissolved pyridine spontaneously generate pyridyl anions.

机构信息

College of Chemistry, Key Laboratory of Advanced Energy Materials Chemistry (Ministry of Education), Renewable Energy Conversion and Storage Center (ReCAST), Beijing National Laboratory for Molecular Sciences, Shenzhen Research Institute, Frontiers Science Center for New Organic Matter, Nankai University, Tianjin 300071, China.

Department of Chemistry, Stanford University, Stanford, CA 94305.

出版信息

Proc Natl Acad Sci U S A. 2022 Mar 22;119(12):e2200991119. doi: 10.1073/pnas.2200991119. Epub 2022 Mar 14.

DOI:10.1073/pnas.2200991119

PMID:35286201

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8944249/

Abstract

The anion of pyridine, C5H5N−, has been thought to be short lived in the gas phase and was only previously observed indirectly. In the condensed phase, C5H5N− is known to be stabilized by solvation with other molecules. We provide in this study striking results for the formation of isolated C5H5N− from microdroplets of water containing dissolved pyridine observed in the negative ion mass spectrum. The gas-phase lifetime of C5H5N− is estimated to be at least 50 ms, which is much longer than previously thought. The generated C5H5N− captured CO2 molecules to form a stable (Py-CO2)− complex, further confirming the existence of C5H5N−. We propose that the high electric field at the air–water interface of a microdroplet helps OH− to transfer an electron to pyridine to form C5H5N− and the hydroxyl radical •OH. Oxidation products of the Py reacting with •OH are also observed in the mass spectrum recorded in positive mode, which further supports this mechanism. The present study pushes the limits of the reducing and oxidizing power of water microdroplets to a new level, emphasizing how different the behavior of microdroplets can be from bulk water. We also note that the easy formation of C5H5N− in water microdroplets presents a green chemistry way to synthesize value-added chemicals.

摘要

吡啶的阴离子，C5H5N−，在气相中被认为是短寿命的，以前只能间接观察到。在凝聚相中，C5H5N−已知通过与其他分子的溶剂化而稳定。在这项研究中，我们提供了令人瞩目的结果，即在含有溶解吡啶的水微滴中形成了孤立的 C5H5N−，这在负离子质谱中观察到。C5H5N−的气相寿命估计至少为 50 ms，比以前认为的要长得多。生成的 C5H5N−捕获 CO2 分子形成稳定的（Py-CO2）−配合物，进一步证实了 C5H5N−的存在。我们提出，微滴的气-水界面处的高电场有助于 OH−将电子转移到吡啶上，形成 C5H5N−和羟基自由基•OH。在正模式下记录的质谱中也观察到了与•OH 反应的 Py 的氧化产物，这进一步支持了这种机制。本研究将水微滴的还原和氧化能力推向了一个新的水平，强调了微滴的行为与体相水有多么不同。我们还注意到，C5H5N−在水微滴中的易形成为合成有价值的化学品提供了一种绿色化学方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0124/8944249/91f1f2028e5a/pnas.2200991119fig01.jpg

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喷雾水微滴中含有的溶解吡啶会自发产生吡啶阴离子。

Sprayed water microdroplets containing dissolved pyridine spontaneously generate pyridyl anions.

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