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Porous Metal Organic Frameworks

whereas in (b) there are two different sorts of linear linkers, as in the diamine pillared zinc terephthalate of Dybtsev. Topology (c) is adopted by the terephthalate Sc2(02CCgH4C02)3. [Pg.47]

The majority of the MOFs that show interesting porous frameworks are built from amine or carboxylate ligands, or combinations of the two. The ability of carboxylates to bind fully through two strong M-OC links rather than one M-N bond, tends to result in carboxylates making up the most thermally robust materials, but there are thermally stable microporous amine- and phosphonate- and even phosphine-based MOFs. [Pg.47]

Some di- and tricarboxylate ligands that have been used successfully in the synthesis of metal organic frameworks mentioned in this text 1 - MOF-5, MIL-53, MIL-68, MIL-101, Sc2(02CC6H4C02)3 structures with the same topology as MOF-5, but with extended linkers 7, 8 - functionalised linkers in MOF and MIL solids 9 -FIKUST-1, MIL-100 10 MOF-177. [Pg.48]

2 Paddle wheel cluster. The paddle wheel cluster is known in many complexes and was found within several of the earliest MOFs to be prepared, typically as (CU2)- or (Zn2)-based units. With 1,4-benzenedicarboxylate or 2,6-naphthalene dicarboxylate (NDQ the paddle wheel complex typically [Pg.49]

For MIL-101, BDC linkers join trimers along the edges of the supertetrahedra, whereas for MIL-100, BTC linkers occupy the faces of the supertetrahedra, linking three trimers. The supertetrahedra are attached through shared trimers  [Pg.51]

H. Li, M. Eddaoudi, M. O Keeffe, O. M. Yaghi, "Design and synthesis of an exceptionally stable and highly porous metal-organic framework , Nature 1999, 402,276-279. [Pg.233]

H. Van Bekkum, A. Corma, and E. Schuth), Stud. Surf Sd. Cat., vol. 168, Elsevier, Amsterdam, pp. 327-374 Muller, U., Schubert, M.M., and Yaghi, O.M. (2008) Chemistry and applications of porous metal-organic frameworks, in Handbook of Heterogeneous Catalysis, Wiley-VCH Verlag GmbH, Weinheim, pp. 247-252. [Pg.25]

Reticular design and synthesis of porous metal-organic frameworks... [Pg.799]

From Inorganic Porous Frameworks to Porous Metal-organic Frameworks (MOFs)... [Pg.8]

This is not to say that all has been discovered about these materials. New solids are continually being synthesised, and the rapidly developing field of porous metal organic frameworks (MOFs) is a current example. The applica-bihty of microporous solids is continually being extended within the traditional fields of adsorption, catalysis and ion exchange. One exciting application explores their use as catalysts in the manufacture of fine chemicals. Other emerging areas of research concern their potential use in medicine or in devices that require speeial electronic or optical properties. [Pg.435]

An, J. Farha, O. K. Flupp, J. T Pohl, E. Yeh, J. I. Rosi, N. L. Metal-adeninate vertices for the construction of an exceptionally porous metal-organic framework. Nature Commun., DOI 10.1038/nconunsl618,2012. [Pg.127]

Yaghi, O. M., Li, G., and Li, H., Selective binding and removal of guests in a micro-porous metal-organic framework. Nature, 378, 703-706 (1995). [Pg.898]

Zybaylo O, Shekhah O, Wang H, Tafipolsky M, Schmid R, Johannsmann D, WoU C (2010) A novel method to measure diffusion coefficients in porous metal-organic frameworks. Phys Chem Chem Phys 12 8092-8097... [Pg.179]

Horike S, Dinca M, Tamaki K, Long JR. Size-selective lewis acid catalysis in a micro-porous metal-organic framework with exposed Mn coordination sites. J Am Chem Soc 2008 130 5854-5. [Pg.335]

Jiang H-L, Xu Q (2011) Porous metal-organic frameworks as platforms for functional applications. Chem Commun 47 3351-3370... [Pg.79]

Lee EY, Jang SY, Suh MP (2005) Multifunctionality and crystal d3mamics of a highly stable, porous metal-organic framework [Zii40(NTB)2]. J Am Chem Soc 127 6374-6381... [Pg.85]

Hou L, Lin Y-Y, Chen X-M (2008) Porous metal—organic framework based on p4-oxo tetrazinc clusters sorption and guest-dependent luminescent properties. Inorg Chem 47 1346-1351... [Pg.85]

Das MC, Xu H, Wang Z, Srinivas G, Zhou W, Yue Y, Nesterov VN, Qian G, Chen B (2011) A Zn40-containing doubly interpenetrated porous metal-organic framework for photocatalytic decomposition of methyl orange. Chem Commun 47 11715-11717... [Pg.103]

Lin WB (2005) Homochiral porous metal-organic framework why and how J Solid State Chem 178 2486-2409... [Pg.163]

Zhao M, Ou S, Wu C-D (2014) Porous metal-organic frameworks for heterogeneous biominetic catalysis. Acc Chem Res 47 1199-1207... [Pg.390]

See other pages where Porous Metal Organic Frameworks is mentioned: [Pg.251]    [Pg.78]    [Pg.2]    [Pg.665]    [Pg.63]    [Pg.59]    [Pg.327]    [Pg.418]    [Pg.263]    [Pg.675]    [Pg.997]    [Pg.10]    [Pg.46]    [Pg.138]    [Pg.364]    [Pg.176]    [Pg.637]    [Pg.2442]    [Pg.161]    [Pg.154]    [Pg.351]    [Pg.122]   


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Organic Frameworks

Porous organic frameworks

Reticular design and synthesis of porous metal-organic frameworks

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