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Artificial Carbon Neutrality Through Aprotic CO <sub>2</sub> Splitting

Wei Li, Xiaowei Mu, Sixie Yang, Di Wang, Yonggang Wang, Haoshen Zhou, Ping He

2025Angewandte Chemie International Edition8 citationsDOIOpen Access PDF

Abstract

Abstract Global climate change mitigation necessitates global efforts to reduce CO 2 emissions. Natural photosynthesis exemplifies an ingenious approach to carbon neutrality, converting CO 2 into O 2 and glucose through light and dark reactions. Inspired by the hydrogen‐involved processes in photosynthesis, an aprotic electrochemical strategy for CO 2 splitting into O 2 and carbon using lithium as a reducing mediator is presented. The designed electrochemical device features a gas cathode with a nanoscale Co catalyst and a metallic lithium anode. When CO 2 is introduced to the cathode, it undergoes a two‐step lithium‐related electrochemical reduction, converting it sequentially into Li 2 CO 3 and Li 2 O. Li 2 O is then oxidized to produce O 2 gas at the expense of renewable electrical energy. This process achieves an impressive O 2 yield exceeding 94.7%, significantly outperforming the efficiency of natural photosynthesis. Moreover, the O 2 yield can be further increased to 98.6% by employing an optimized RuCo catalyst. This study offers a new practical and controllable pathway to produce O 2 from CO 2 , strongly promoting the sustainable development of human society for realizing carbon neutrality as well as exploring and conquering nature.

Topics & Concepts

NeutralityCarbon fibersCarbon neutralityMaterials scienceComputer scienceAlgorithmPolitical scienceEngineeringLawElectrical engineeringComposite numberRenewable energyCO2 Reduction Techniques and CatalystsCatalytic Processes in Materials ScienceCarbon Dioxide Capture Technologies
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