Multifunctional Strategies of Advanced Electrocatalysts for Efficient Urea Synthesis
The electrochemical reduction of nitrogenous species (such as N2, NO, NO2−, and NO3−)
for urea synthesis under ambient conditions has been extensively studied due to their …
for urea synthesis under ambient conditions has been extensively studied due to their …
C–N electro-coupling of CO2/bio-derived carbonaceous molecules and nitrogenous small molecules: Mechanism, catalysts, and applications
Q Song, Y Zhang, L Gu, M Kuang, J Yang - Coordination Chemistry …, 2025 - Elsevier
The electrochemical Csingle bondN coupling, utilizing carbon dioxide or bio-derived
carbonaceous molecules and nitrogenous small molecules (N 2, NO 3−, NO 2−, NO and NH …
carbonaceous molecules and nitrogenous small molecules (N 2, NO 3−, NO 2−, NO and NH …
Efficient urea synthesis via one-step N–C–N coupling: strong metal–support interaction-driven planar Cu clusters on two-dimensional Mo 2 C MXene
The electrocatalytic co-reduction of small carbonaceous and nitrogenous molecules recently
emerged as a promising strategy to mitigate carbon emissions, facilitate wastewater …
emerged as a promising strategy to mitigate carbon emissions, facilitate wastewater …
Electrochemical strategies for urea synthesis via C–N coupling of integrated carbon oxide–nitrogenous molecule reduction
The electrochemical coupling of C and N has sparked considerable research attention,
heralded as a capable method to curb carbon and nitrogen emissions while concurrently …
heralded as a capable method to curb carbon and nitrogen emissions while concurrently …
[HTML][HTML] Advances in Electrocatalytic Urea Synthesis: From Fundamentals to Applications
Z Mo, J Mu, B Liu - Advanced Powder Materials, 2024 - Elsevier
The electrocatalytic synthesis of urea (ESU) is a green and sustainable alternative to
conventional production methods, and the related research is still in its infancy. Up to now …
conventional production methods, and the related research is still in its infancy. Up to now …
[HTML][HTML] Catalysis of CN coupling on High-Entropy alloys
Catalyzing carbon–nitrogen (CN) coupling using small abundant nitrogenous molecules is
of growing interest to lessen the environmental impact of the industrial process. High …
of growing interest to lessen the environmental impact of the industrial process. High …
Single and dual-atom catalysts towards electrosynthesis of ammonia and urea: a review
Ammonia and urea represent two important chemicals that have contributed to the rapid
development of humanity. However, their industrial production requires harsh conditions …
development of humanity. However, their industrial production requires harsh conditions …
Achieving green synthesis of high-value-added chemicals via N-integrated CO2 co-reduction: a review
The acceleration of global industrialization and overuse of fossil fuels have caused the
release of greenhouse gases and the disruption of the natural nitrogen cycle, leading to …
release of greenhouse gases and the disruption of the natural nitrogen cycle, leading to …
Unusual CN coupling mechanism via NO dimerization for the electrochemical synthesis of urea on transition metal dimers supported by two-dimensional expanded …
L Yang, J Fan, W Zhu - Molecular Catalysis, 2024 - Elsevier
Electro-synthesis of urea is a powerful alternative to traditional demanding industrial
engineering by selective reduction of N 2 and CO 2. Due to the existence of inert Ntriple …
engineering by selective reduction of N 2 and CO 2. Due to the existence of inert Ntriple …
Electrocatalysts for Urea Synthesis from CO2 and Nitrogenous Species: From CO2 and N2/NOx Reduction to urea synthesis
The traditional industrial synthesis of urea relies on the energy− intensive and polluting
process, namely the Haber− Bosch method for ammonia production, followed by the Bosch …
process, namely the Haber− Bosch method for ammonia production, followed by the Bosch …