基于半刚性配体的柔性超微孔金属有机骨架的合成及其尺度选择性二氧化碳捕获

基于半刚性的配体3'',5''-di (1H-1,2,4-triazol-1-yl)-(1,1''-biphenyl)-3,5-dicarboxylic acid (H₂DTBDA)和硝酸钴制备了一个柔性超微孔的金属有机骨架{[Co (DTBDA)]·4H₂O}_n(FJI-H35),并对该材料的结构进行了系统的表征。FJI-H35活化以后可以发生自适应的结构转变,使得孔径从0.43 nm收缩到0.37 nm。气体吸附测试表明FJI-H35可以从氮气和甲烷中选择性捕获二氧化碳,具有很高的吸附选择性和相对低的吸附焓。突破实验进一步证实FJI-H35可以从二氧化碳/氮气(15∶85,V/V)和二氧化碳/甲烷(50∶50,V/V)混合气中高效选择性捕获二氧化碳。     

Self-assembly and Crystal Structure of a Novel Inorganic-organic Hybrid Coordination： {（C12H14N2）[Ag2I4]}n

1 INTRODUCTION The construction of low-dimensional organic- inorganic hybrid material with novel properties re- presents new directions in solid-state chemistry[1, 2]. Generally the physical properties of such low di- mensional compounds differ from tho…     

一个微孔钴基金属有机骨架的合成及其选择性气体吸附

利用硝酸钴与配体5,5''-di(1H-1,2,4-triazol-1-yl)-(1,1''-biphenyl)-2,2''-dicarboxylic acid (H₂DTBDA)进行溶剂热反应,制备了一个结构新颖的金属有机骨架{[Co(DTBDA)]₂·DMF·MeOH}_n (FJI-H37)。FJI-H37不仅具有适合气体分子吸附的0.69 nm的微孔,还具有良好的热稳定性及有机溶剂容忍性。气体吸附测试表明FJI-H37不仅能从C₂H₂/CO₂(体积比50:50)混合气中选择性吸附C₂H₂,还可以从CO₂/N₂(体积比15:85)和CO₂/CH₄(体积比50:50)混合气中选择性捕获CO₂;固定床突破实验进一步证实了其高效的气体分离能力。     

一个微孔钴基金属有机骨架的合成及其选择性气体吸附

利用硝酸钴与配体5，5''-di (1H-1，2，4-triazol-1-yl)-(1，1''-biphenyl)-2，2''-dicarboxylic acid (H₂DTBDA)进行溶剂热反应，制备了一个结构新颖的金属有机骨架{[Co (DTBDA)]₂·DMF·MeOH}_n (FJI-H37)。FJI-H37不仅具有适合气体分子吸附的0.69 nm的微孔，还具有良好的热稳定性及有机溶剂容忍性。气体吸附测试表明FJI-H37不仅能从C₂H₂/CO₂(体积比50∶50)混合气中选择性吸附C₂H₂，还可以从CO₂/N₂(体积比15∶85)和CO₂/CH₄(体积比50∶50)混合气中选择性捕获CO₂；固定床突破实验进一步证实了其高效的气体分离能力。     

基于半刚性配体的柔性超微孔金属有机骨架的合成及其尺度选择性二氧化碳捕获

基于半刚性的配体3'',5''-di(1H-1,2,4-triazol-1-yl)-(1,1''-biphenyl)-3,5-dicarboxylicacid(H₂DTBDA)和硝酸钴制备了一个柔性超微孔的金属有机骨架{[Co(DTBDA)]·4H₂O}_n(FJI-H35),并对该材料的结构进行了系统的表征。FJI-H35活化以后可以发生自适应的结构转变,使得孔径从0.43nm收缩到0.37nm。气体吸附测试表明FJI-H35可以从氮气和甲烷中选择性捕获二氧化碳,具有很高的吸附选择性和相对低的吸附焓。突破实验进一步证实FJI-H35可以从二氧化碳/氮气(15∶85,V/V)和二氧化碳/甲烷(50∶50,V/V)混合气中高效选择性捕获二氧化碳。     

A Novel Co(Ⅱ)-organic Framework with Multiple Active Sites for Selective Gas Adsorption

A novel metal-organic framework[Co(BTTA)(H₂O)₂]_n(FJI-H₂4)has been prepared from H₂BTTA ligand and CoCl₂,and its structure was determined by single-crystal X-ray diffraction,thermogravimetric analysis,and Fourier transform infrared spectroscopy.It has relatively narrow pores and high density of open metal ions and free Lewis base sites.Gas adsorption tests demonstrate that FJI-H₂4 has moderate CO₂(34.0 cm³·g^–1)and C₂H₂(53.0 cm³·g^–1)adsorption capacity,but displays high selectivity of CO₂/N₂(87)and C₂H₂/CH₄(66)under ambient conditions(298 K,1 atm),which may be attributed to its relatively narrow pores and polar environment.This work will provide a potential strategy for preparing practical porous metal-organic frameworks for gas adsorption and purification.     

Ultra-microporous Metal-organic Framework with High Concentration of Free Carboxyl Groups and Lewis Basic Sites for CO_2 Capture at Ambient Conditions

How to rationally design effective and practical CO_2 adsorbent is a great challenge. Herein, an ultra-microporous metal-organic framework(FJI-H19) with high concentration of free carboxyl groups and uncoordinated Lewis basic sites has been synthesized from a multi-dental ligand with a high proportion of polar CO_2-philic atoms. FJI-H19 displays a relatively high CO_2 volumetric uptake(120 cm~3?cm~(–3)) with high selectivity under practical atmosphere(298 K and 1 bar). Further researches demonstrate that such high adsorption results from an unusual synergistic effect from free carboxyl group and uncoordinated N atoms. This result will provide a potential strategy for developing more effective and pratical CO_2 adsorbent based on MOFs.     

一个微孔钴基金属有机骨架的合成及其选择性气体吸附

利用硝酸钴与配体5，5''-di (1H-1，2，4-triazol-1-yl)-(1，1''-biphenyl)-2，2''-dicarboxylic acid (H₂DTBDA)进行溶剂热反应，制备了一个结构新颖的金属有机骨架{[Co (DTBDA)]₂·DMF·MeOH}_n (FJI-H37)。FJI-H37不仅具有适合气体分子吸附的0.69 nm的微孔，还具有良好的热稳定性及有机溶剂容忍性。气体吸附测试表明FJI-H37不仅能从C₂H₂/CO₂(体积比50∶50)混合气中选择性吸附C₂H₂，还可以从CO₂/N₂(体积比15∶85)和CO₂/CH₄(体积比50∶50)混合气中选择性捕获CO₂；固定床突破实验进一步证实了其高效的气体分离能力。