Electrochemical synthesis, characterization and application of a microstructure Cu-3(BTC)(2) metal organic framework for CO2 and CH4 separation

Pirzadeh Kasra; Ghoreyshi Ali Asghar; Rahimnejad MostafaMohammadi Maedeh

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Electrochemical synthesis, characterization and application of a microstructure Cu-3(BTC)(2) metal organic framework for CO2 and CH4 separation

机译：微观结构Cu-3（BTC）（2）金属有机骨架在CO2和CH4分离中的电化学合成、表征及应用

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The electrochemical route is a promising and environmentally friendly technique for fabrication of metal organic frameworks (MOFs) due to mild synthesis condition, short time for crystal growth and ease of scale up. A microstructure Cu-3(BTC)(2) MOF was synthesized through electrochemical path and successfully employed for CO2 and CH4 adsorption. Characterization and structural investigation of the MOF was carried out by XRD, FE-SEM, TGA, FTIR and BET analyses. The highest amount of carbon dioxide and methane sorption was 26.89 and 6.63 wt, respectively, at 298 K. The heat of adsorption for CO2 decreased monotonically, while an opposite trend was observed for CH4. The results also revealed that the selectivity of the developed MOF towards CO2 over CH4 enhanced with increase of pressure and composition of carbon dioxide component as predicted by the ideal adsorption solution theory (IAST). The regeneration of as-synthesized MOF was also studied in six consecutive cycles and no considerable reduction in CO2 adsorption capacity was observed.

机译：电化学路线是一种很有前途且环保的金属有机框架（MOFs）制造技术，因为它的合成条件温和，晶体生长时间短，易于放大。通过电化学途径合成了微观结构Cu-3（BTC）（2）MOF，并成功用于CO2和CH4吸附。通过XRD、FE-SEM、TGA、FTIR和BET分析对MOF进行表征和结构研究。在298 K时，二氧化碳和甲烷吸附量最高，分别为26.89和6.63 wt%。CO2的吸附热单调下降，而CH4的吸附热则相反。结果还表明，随着压力的增加和二氧化碳组分成分的增加，所开发的MOF对CO2的选择性高于CH4，正如理想吸附溶液理论（IAST）所预测的那样。还研究了连续6个循环合成MOF的再生，没有观察到CO2吸附能力的显著降低。

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《The Korean journal of chemical engineering 》 |2018年第4期| 974-983| 共10页
作者
Pirzadeh Kasra; Ghoreyshi Ali Asghar; Rahimnejad MostafaMohammadi Maedeh;
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作者单位

Babol Noshirvani Univ Technol, Dept Chem Engn, Babol Sar, Iran;

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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种英语
中图分类应用化学 ;
关键词
MOF; Cu-3(BTC)(2); Electrochemical Synthesis; CO2/CH4 Adsorption; IAST;

机译：MOF;Cu-3（BTC）（2）;电化学合成;CO2/CH4 吸附;IAST公司;

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Electrochemical synthesis, characterization and application of a microstructure Cu-3(BTC)(2) metal organic framework for CO2 and CH4 separation

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