双功能
吸附
解吸
水分
相对湿度
小型商用车
化学工程
材料科学
铜
比表面积
化学
湿度
金属有机骨架
复合材料
冶金
有机化学
物理
工程类
热力学
催化作用
作者
Yüfang Wu,Zhenqiang Lv,Xin Zhou,Junjie Peng,Yuning Tang,Zhong Li
标识
DOI:10.1016/j.cej.2018.08.179
摘要
We report a bifunctional SBU-tuning strategy that simultaneously enhances the selective CO2 adsorption capacity of Cu-BTC and its structural stability under moisture. A series of [email protected] were prepared by grafting glycine (Gly) to the secondary building units (SBUs) of the commercially available Cu-BTC through the nano-seed assistant ultrafast room temperature synthesis. N2 isotherms evidenced higher BET specific surface area and pore volume of [email protected] than that of Cu-BTC. Hence, Gly0.3@Cu-BTC exhibited a superior CO2 capacity of 5.4 mmol/g at ambient conditions, which is 12% higher than that of Cu-BTC. Besides, the adsorptive selectivity of Gly0.3@Cu-BTC for the equimolar CO2/CH4 and CO2/N2 mixtures was separately up to 8.53 and 59.38, being 11% and 15% higher compared to that of Cu-BTC. More importantly, the stability of Gly0.3@Cu-BTC against moisture was improved. After 10 days’ exposure in 55% relative humidity, Gly0.3@Cu-BTC preserved 80% of its original CO2 capacity, while only 9% CO2 capacity remained for Cu-BTC. In addition, negligible CO2 capacity loss of Gly0.3@Cu-BTC was observed in the subsequent 10 days in moisture after the initial exposure. Gly0.3@Cu-BTC exhibited excellent regenerability, and its CO2 desorption efficiency reached up to 98% based on the consecutive adsorption-desorption cycles. The origination of the improved stability under moist of Gly0.3@Cu-BTC was interpreted with DFT calculation. The bifunctional SBU-tuning strategy demonstrated in this work enables the potential adsorptive separation application of Cu-BTC under moist working condition.
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