HIGHLIGHTS

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August 18, 2022

Enhancing acetate production in CO electrolysis

We recently introduce a new strategy to improve acetate selectivity in CO electrolysis. The combination of a Ni-Fe anode catalyst and a suitable anion exchange membrane enabled us to produce a highly concentrated acetate product stream with a high purity (>95%). This work represents a critical step towards commercial applications. The key results were published in Nature Catalysis. 

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June 23, 2022

Converting CO2 into food 

A joint publication with a team at University of California, Riverside was published in Nature Food. We demonstrated the feasibility to grow plants in dark using electrocatalytically CO2-derived acetate for the first time. The electrochemical-biological hybrid approach offers a completely new pathway for food production that overcomes the critical challenge associated with low efficiency in photosynthesis.

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May 4, 2022

Decarbonizing the chemical industry

A perspective article was in JACS Au in which we discussed the emerging electrochemical technologies for decarbonizing the chemical industry.

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January 18, 2022

CO2 electrolysis technology

We recently published an Account focusing on our latest contributions in both fundamental and applied research in the field of electrocatalytic CO2 and CO reduction reactions. The full article can be found in Accounts of Chemical Research.

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January 11, 2022

Electrochemical conversion of NOx

NOx is considered as a major pollutant to our environment. We recently investigated the electrochemical approach to convert gaseous NOx using transition metal catalysts, which may help us tackle the NOx emission issues. The results have been published in JACS.

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October 20, 2021

Ion conductor for solid-state batteries

A recent study on copper-coordinated cellulose ion conductors was published in Nature. This work was conducted through collaborations among Dr. Jiao's group and other collaborators (led by Prof. Liangbing Hu at University of Maryland, College Park).