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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Journal ArticleDOI
Constant Volume Gate-Opening by Freezing Rotational Dynamics in Microporous Organically Pillared Layered Silicates.
Kilian Bärwinkel,Markus M. Herling,Martin Rieß,Hiroshi Sato,Liangchun Li,Yamini S. Avadhut,Tobias W. Kemnitzer,Hussein Kalo,Jürgen Senker,Ryotaro Matsuda,Ryotaro Matsuda,Susumu Kitagawa,Josef Breu +12 more
TL;DR: Microporous organically pillared layered silicates (MOPS) are found to be capable of discriminating two very similar gases by selective gate-opening solely through quenching pillar dynamics, and the shape of the slit-type micropores in MOPS can easily be fine-tuned by reducing the charge density.
Journal ArticleDOI
Organometallic crystal engineering of [(1,4- and 1,3-hydroquinone)Rh(P(OPh)3)2]BF4 by charge assisted hydrogen bonding
TL;DR: The ionic complexes [(1,4- and 1,3-hydroquinone)Rh(P(OPh3)3)2]BF4 form porous organometallic structures dictated by charge assisted hydrogen bonding.
Journal ArticleDOI
An Ultramicroporous Hydrogen-Bonded Organic Framework Exhibiting High C2H2/CO2 Separation.
Yisi Yang,Hao Zhang,Zhen Yuan,Jia-Qi Wang,Fahui Xiang,Liangji Chen,Fangfang Wei,Shengchang Xiang,Banglin Chen,Zhangjing Zhang +9 more
TL;DR: In this paper , an ultramicroporous hydrogen-bonded organic framework (HOF-FJU-1) from tetracyano bicarbazole is presented to separate C2H2 from CO2 by taking advantage of differences in their electrostatic potential distribution.
Journal ArticleDOI
Acetylene and argon adsorption in a supramolecular organic zeolite
Loredana Erra,Consiglia Tedesco,Valeria Rosaria Cipolletti,Liana Annunziata,Carmine Gaeta,Michela Brunelli,Andrew N. Fitch,Christina Knöfel,Philip L. Llewellyn,Jerry L. Atwood,Placido Neri +10 more
TL;DR: The adsorption properties of a new nanoporous organic zeolite with respect to acetylene and Ar were studied by volumetric adsorptive analysis, microcalorimetric experiments, and synchrotron high-resolution X-ray powder diffraction to locate the guest molecules inside the host channels and characterize the host-guest interactions.
Journal ArticleDOI
Metal–organic coordination polymers with a new 3,5-(4-carboxybenzyloxy) benzoic acid linker
TL;DR: In this paper, a new framework solids consisting of coordination polymers [Ce(L)(DMA)(H2O)]n (1), [Nd(L), DMA, H2O], [Cd2(L)2(4,4′-bipyridyl)]n·(CH3NH2CH3+)2n (4) (H3L = 3,5-(4-carboxybenzyloxy) benzoic acid; DMA = dimethyl acetamide) have been synthesized under
References
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