Journal ArticleDOI
Highly controlled acetylene accommodation in a metal–organic microporous material
Ryotaro Matsuda,Ryo Kitaura,Ryo Kitaura,Susumu Kitagawa,Yoshiki Kubota,Rodion V. Belosludov,Tatsuo C. Kobayashi,Hirotoshi Sakamoto,Takashi Chiba,Masaki Takata,Yoshiyuki Kawazoe,Yoshimi Mita +11 more
TLDR
High levels of selective sorption of acetylene molecules as compared to a very similar molecule, carbon dioxide, onto the functionalized surface of a MOM are reported.Abstract:
Metal-organic microporous materials (MOMs) have attracted wide scientific attention owing to their unusual structure and properties, as well as commercial interest due to their potential applications in storage, separation and heterogeneous catalysis. One of the advantages of MOMs compared to other microporous materials, such as activated carbons, is their ability to exhibit a variety of pore surface properties such as hydrophilicity and chirality, as a result of the controlled incorporation of organic functional groups into the pore walls. This capability means that the pore surfaces of MOMs could be designed to adsorb specific molecules; but few design strategies for the adsorption of small molecules have been established so far. Here we report high levels of selective sorption of acetylene molecules as compared to a very similar molecule, carbon dioxide, onto the functionalized surface of a MOM. The acetylene molecules are held at a periodic distance from one another by hydrogen bonding between two non-coordinated oxygen atoms in the nanoscale pore wall of the MOM and the two hydrogen atoms of the acetylene molecule. This permits the stable storage of acetylene at a density 200 times the safe compression limit of free acetylene at room temperature.read more
Citations
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Pore-size tuning in double-pillared metal–organic frameworks containing cadmium clusters
TL;DR: Based on a double pillared strategy, four non-interpenetrated cadmium metal-organic frameworks, showing interesting luminescence properties, have been reported in this article, where the pore sizes can be continuously tuned and with the elongation of the pillars, the frameworks turn from nbo net to mot net for different layer stacking fashions.
Journal ArticleDOI
Highly Selective Adsorption of Carbon Dioxide over Acetylene in an Ultramicroporous Metal–Organic Framework
Yanshu Shi,Yi Xie,Hui Cui,Yingxiang Ye,Hui Wu,Wei Zhou,Hadi D. Arman,Rui-Biao Lin,Banglin Chen +8 more
TL;DR: In this article, an ultramicroporous metal-organic framework constructed from copper(II) and 5-fluoropyrimidin-2-olate, termed Cu-F-pymo, is carefully studied under different activations for inverse separation of CO2 from C2 H2.
Journal ArticleDOI
Pillar[n]arene-based supramolecular organic frameworks with high hydrocarbon storage and selectivity
TL;DR: The high hydrocarbon storage capacity and adsorption selectivity of two low-density pillar[n]arene-based SOFs are reported and their great potential in gas-storage and gas-separation applications is studied.
The chemistry and applications of flexible porous coordination polymers
TL;DR: In this article, the authors focus on the three aspects of flexible porous coordination polymers (PCPs): 1) classifying the flexible systems with different fashions of pore opening, 2) classification the flexible PCPs with governing factors of internal structure and external conditions, and 3) introducing, and summarizing, flexibility- and structure-dependent performance.
Journal ArticleDOI
Electrostatically Mediated Specific Adsorption of Small Molecules in Metallo-Organic Frameworks
TL;DR: It is shown that at low loadings the lighter molecule has a higher binding energy as a result of an increased interaction with the framework Cu and stronger hydrogen bonding with the basic framework oxygens, which leads to selective adsorption of ethylene at low pressure, which is overcome by the stronger van der Waals interaction of ethane at high loadings.
References
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