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Recent Advances in Urea Electrocatalysis: Applications, Materials and Mechanisms†

化学 电催化剂 尿素 纳米技术 电化学 物理化学 有机化学 电极 材料科学
作者
Chu Zhang,Shi‐Jie Chen,Liwei Guo,Zeyu Li,Chunshuang Yan,Chade Lv
出处
期刊:Chinese Journal of Chemistry [Wiley]
卷期号:42 (24): 3441-3468 被引量:36
标识
DOI:10.1002/cjoc.202400442
摘要

Comprehensive Summary Urea plays a vital role in human society, which has various applications in organic synthesis, medicine, materials chemistry, and other fields. Conventional industrial urea production process is energy−intensive and environmentally damaging. Recently, electrosynthesis offers a greener alternative to efficient urea synthesis involving coupling CO 2 and nitrogen sources at ambient conditions, which affords an achievable way for diminishing the energy consumption and CO 2 emissions. Additionally, urea electrolysis, namely the electrocatalytic urea oxidation reaction (UOR), is another emerging approach very recently. When coupling with hydrogen evolution reaction, the UOR route potentially utilizes 93% less energy than water electrolysis. Although there have been many individual reviews discussing urea electrosynthesis and urea electrooxidation, there is a critical need for a comprehensive review on urea electrocatalysis. The review will serve as a valuable reference for the design of advanced electrocatalysts to enhance the electrochemical urea electrocatalysis performance. In the review, we present a thorough review on two aspects: the electrocatalytic urea synthesis and urea oxidation reaction. We summarize in turn the recently reported catalyst materials, multiple catalysis mechanisms and catalyst design principles for electrocatalytic urea synthesis and urea electrolysis. Finally, major challenges and opportunities are also proposed to inspire further development of urea electrocatalysis technology. Key Scientists For urea electrosynthesis, Furuya et al. firstly investigated the electrochemical coreduction of CO 2 and NO 3 − /NO 2 − using gas‐diffusion electrodes in 1995. Then, Wang et al. effectively achieved C—N bond formation and urea synthesis on PdCu alloy nanoparticles in 2020. Shortly, Yan and Yu et al. proposed the formation of *CO 2 NO 2 from *NO 2 and *CO 2 intermediates at early stage on In(OH) 3 electrocatalyst in 2021, and employed defect engineering strategy to facilitate the *CO 2 NH 2 protonation in 2022. Amal et al . Investigated the role that Cu‐N‐C coordination plays for both the CO 2 RR and NO 3 RR. After that, Zhang's group developed In‐based electrocatalysts with artificial frustrated Lewis pairs for urea, and they offered a systematic screening approach for catalyst design in urea electrosynthesis in 2023. And sargent et al . reported a strategy that increased selectivity to urea using a hybrid catalyst. For urea electrooxidation, Stevenson et al . investigated the effect of Sr substitution toward the urea oxidation reaction. Wang et al. provided insights into the urea electrooxidation process using a β‐Ni(OH) 2 electrode and Qiao et al . elucidated a two‐stage reaction pathway for UOR in 2021.
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