Electrochemical CO₂ reduction reaction (CO₂RR) in aqueous electrolytes is considered a promising approach to reduce emissions. Copper-based CO2RR, which can utilize sustainable electricity to produce high-value products while achieving net-zero carbon emissions, is increasingly seen as a potential candidate technology for carbon neutrality. So far, the design of electrocatalysts has been considered crucial in achieving efficient and selective CO₂ conversion to chemicals. Given that electrochemical reactions usually occur at the gas-solid-liquid three-phase interface of aqueous solutions, catalysts, and reactive gases, interface state regulation has become one of the key strategies to improve reaction efficiency and selectivity.

    吕希蒙博士，复旦大学理学学士（2016）、硕士（2019）、博士（2023）。长期从事一碳分子（CO₂, CO, CH₄）光电催化制备可再生燃料的催化剂设计与能源材料开发的理论模拟研究，在金属基光电催化剂创制、界面电子态调控，以及多尺度极化带电界面工程等研究领域积累了丰富的研究经验。相关研究工作发表在Nat. Catal.、Nat. Commun.、Angew. Chem.、Adv. Mater.等国际期刊上，至今发表SCI论文61篇，总被引3400余次（H-index 28）。