Xufeng Gao scite author profile

Water is considered as an inert environment for the dispersion of many chemical systems. However, by simply spraying bulk water into microsized droplets, the water microdroplets have been shown to possess a large plethora of unique properties, including the ability to accelerate chemical reactions by several orders of magnitude compared to the same reactions in bulk water, and/or to trigger spontaneous reactions that cannot occur in bulk water. A high electric field (∼109 V/m) at the air–water interface of microdroplets has been postulated to be the probable cause of the unique chemistries. This high field can even oxidize electrons out of hydroxide ions or other closed-shell molecules dissolved in water, forming radicals and electrons. Subsequently, the electrons can trigger further reduction processes. In this Perspective, by showing a large number of such electron-mediated redox reactions, and by studying the kinetics of these reactions, we opine that the redox reactions on sprayed water microdroplets are essentially processes using electrons as the charge carriers. The potential impacts of the redox capability of microdroplets are also discussed in a larger context of synthetic chemistry and atmospheric chemistry.

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Electrically-modulated infrared absorption of graphene metamaterials via magnetic dipole resonance

Cao

Wang

Gao

et al. 2022

Physica E: Low-dimensional Systems and Nanostructures

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Bidirectional tunable nano-film absorber based on Fabry–Pérot resonance incorporating polymer-dispersed liquid crystal

Wang

Gao

Hong

et al. 2022

Optics Communications

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Xufeng Gao

Spherical Structures Composed of Multiwalled Carbon Nanotubes: Formation Mechanism and Catalytic Performance

The Spontaneous Electron-Mediated Redox Processes on Sprayed Water Microdroplets

Electrically-modulated infrared absorption of graphene metamaterials via magnetic dipole resonance

Bidirectional tunable nano-film absorber based on Fabry–Pérot resonance incorporating polymer-dispersed liquid crystal

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