Litcius/Paper detail

Substantially improved efficiency and selectivity of carbon dioxide reduction by superior hydrated electron in microdroplet

Qiuyue Ge, Yangyang Liu, Wenbo You, Yumo Li, Wei Wang, Le Yang, Lifang Xie, Kejian Li, Licheng Wang, Minglu Ma, Runbo Wang, Jilun Wang, Tingting Huang, Tao Wang, Xuejun Ruan, Minbiao Ji, Liwu Zhang

2025Science Advances18 citationsDOIOpen Access PDF

Abstract

The photochemical conversion of CO 2 into valuable fuels faces challenges of low efficiency and poor selectivity. Hydrated electrons (e aq − ), with their extremely negative reduction potential, are promising CO 2 -reducing agents, yet their short lifetime limits selectivity and high-energy-density product formation. Herein, we show that microdroplet interfaces with strong electric fields (10 9 volts per meter) substantially extend the lifespan of e aq − generated from industrial sulfite pollutants (SO 3 2− ), lowering energy barriers in the CO 2 reduction reaction and enabling targeted product formation. The machine learning strategy identified microdroplet size as the key parameter controlling electric field strength, product yield, and selectivity. In our lab-based scaled-up system, microdroplets <10 micrometers improved performance by four to seven orders of magnitude over bulk-phase systems, achieving ~99% methanol selectivity. Strong interfacial electric fields stabilize intermediates and modulate carbon-oxygen bond lengths, directing pathways to high-value products. This approach enables sustainable CO 2 utilization via microdroplets, potentially producing fuels from waste.

Topics & Concepts

Electric fieldSelectivityMaterials scienceSulfiteReduction (mathematics)ElectronNanotechnologyMethanolPollutantCarbon dioxideElectrochemical reduction of carbon dioxidePhotochemistryChemical engineeringEnergy conversion efficiencyEnergy transformationField (mathematics)Chemical physicsProduct (mathematics)Chemical reactionAdvanced Photocatalysis TechniquesCO2 Reduction Techniques and CatalystsElectronic and Structural Properties of Oxides
Substantially improved efficiency and selectivity of carbon dioxide reduction by superior hydrated electron in microdroplet | Litcius