The urgent need to mitigate global climate change and transition toward sustainable energy systems has brought carbon dioxide(CO_(2))reduction technologies into the global spotlight.Electrochemical CO_(2)reduction rea...The urgent need to mitigate global climate change and transition toward sustainable energy systems has brought carbon dioxide(CO_(2))reduction technologies into the global spotlight.Electrochemical CO_(2)reduction reaction(CO_(2)RR)stands out as a promising pathway to convert CO_(2),the most abundant greenhouse gas,into value-added fuels and chemicals,offering both environmental and economic benefits.At the same time,advances in material science,in-situ characterization,system-level design,and light-driven catalysis have opened new avenues for more efficient and sustainable CO_(2)utilization.Fundamental research on energy materials and engineering validation are also playing a crucial role in driving these technologies toward industrialization,with numerous encouraging advances being reported.展开更多
文摘The urgent need to mitigate global climate change and transition toward sustainable energy systems has brought carbon dioxide(CO_(2))reduction technologies into the global spotlight.Electrochemical CO_(2)reduction reaction(CO_(2)RR)stands out as a promising pathway to convert CO_(2),the most abundant greenhouse gas,into value-added fuels and chemicals,offering both environmental and economic benefits.At the same time,advances in material science,in-situ characterization,system-level design,and light-driven catalysis have opened new avenues for more efficient and sustainable CO_(2)utilization.Fundamental research on energy materials and engineering validation are also playing a crucial role in driving these technologies toward industrialization,with numerous encouraging advances being reported.
