Water-Microdroplet-Driven Interface-Charged Chemistries

IF 8.5 Q1 CHEMISTRY, MULTIDISCIPLINARY JACS Au Pub Date : 2024-10-31 DOI:10.1021/jacsau.4c0080410.1021/jacsau.4c00804
Xiuquan Jia, Jianhan Wu and Feng Wang*, 
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Abstract

Water has made Earth a habitable planet by electrifying the troposphere. For example, the lightning caused by the electrification and discharge of cloudwater microdroplets is closely related to atmospheric chemistry. Recent work has revealed that a high electric field exists at the interface of water microdroplets, which is ∼3 orders of magnitude higher than the electric field that accounts for lightning. A surge of exotic redox reactions that were recently found over water microdroplets can be contributed by such an interfacial electric field. However, the role of net charge in microdroplet redox chemistry should not be ignored. In this Perspective, we show how redox reactions can be driven by electron transfer pathways in the electrification and discharge process of water microdroplets. Understanding and harnessing the origin and evolution of charged microdroplets are likely to lead to a paradigm shift of electrochemistry, which may play an overlooked role in geological and environmental chemistry.

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水微滴驱动的界面充注化学工艺
水使对流层通电,从而使地球成为宜居星球。例如,云水微滴的电化和放电引起的闪电与大气化学密切相关。最近的研究发现,在水微滴的界面上存在一个高电场,这个电场比闪电的电场高出 3 个数量级。最近在水微滴上发现的大量奇异氧化还原反应可能就是由这种界面电场引起的。然而,净电荷在微滴氧化还原化学中的作用也不容忽视。在本《视角》中,我们将展示在水微滴的通电和放电过程中,氧化还原反应是如何由电子传递途径驱动的。了解和利用带电微滴的起源和演化很可能会导致电化学范式的转变,这可能会在地质和环境化学中发挥被忽视的作用。
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CiteScore
9.10
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0.00%
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0
审稿时长
10 weeks
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