化学
烟气
亚稳态
吸附剂
化学工程
碳纤维
二氧化碳
流出物
可再生能源
工艺工程
体积流量
能源消耗
纳米技术
温室气体
光化学
可逆反应
作者
Ao Li,Junkai Cai,Quan Xiao,Mingyu Yang,Tianqiong Ma,Chunying Duan
摘要
Point source carbon capture contributes crucially to climate change mitigation; however, integrating CO 2 capture with renewable energy sources to minimize energy consumption for sorbent regeneration and CO 2 release poses significant challenges. Photoacid-based systems offer a light-regulated route to CO 2 capture and release by using photonic energy to modulate acidity under mild conditions. Herein, efficient photodriven CO 2 release systems are realized through the coassembly of amino-functionalized metal–organic frameworks (MOFs) and metastable photoacids. This optimized system released 12 mL of CO 2 per mmol photoacid every cycle from flue gas within 3 min of light exposure and regenerates CO 2 -capture ability during a 5 min dark period. A U-shaped continuous-flow prototype further enabled light-triggered CO 2 release, delivering a CO 2 release rate of 0.11 mL min –1 from an effluent gas flow of 1.0 mL min –1 .
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