Synthesis, Structure, and Metalation of Two New Highly Porous Zirconium Metal–Organic Frameworks

Citations Over TimeTop 1% of 2012 papers

Abstract

Three new metal-organic frameworks [MOF-525, Zr(6)O(4)(OH)(4)(TCPP-H(2))(3); MOF-535, Zr(6)O(4)(OH)(4)(XF)(3); MOF-545, Zr(6)O(8)(H(2)O)(8)(TCPP-H(2))(2), where porphyrin H(4)-TCPP-H(2) = (C(48)H(24)O(8)N(4)) and cruciform H(4)-XF = (C(42)O(8)H(22))] based on two new topologies, ftw and csq, have been synthesized and structurally characterized. MOF-525 and -535 are composed of Zr(6)O(4)(OH)(4) cuboctahedral units linked by either porphyrin (MOF-525) or cruciform (MOF-535). Another zirconium-containing unit, Zr(6)O(8)(H(2)O)(8), is linked by porphyrin to give the MOF-545 structure. The structure of MOF-525 was obtained by analysis of powder X-ray diffraction data. The structures of MOF-535 and -545 were resolved from synchrotron single-crystal data. MOF-525, -535, and -545 have Brunauer-Emmett-Teller surface areas of 2620, 1120, and 2260 m(2)/g, respectively. In addition to their large surface areas, both porphyrin-containing MOFs are exceptionally chemically stable, maintaining their structures under aqueous and organic conditions. MOF-525 and -545 were metalated with iron(III) and copper(II) to yield the metalated analogues without losing their high surface area and chemical stability.

Related Papers

• → Cruciform formation in a negatively supercoiled DNA may be kinetically forbidden under physiological conditions(1983)210 cited
• → Optimisation of Cruciform Test Specimen for Biaxial Tensile Testing of Sheet Metal(2011)3 cited
• 십자형 낙하산의 방향 제어에 관한 풍동시험 연구(2006)
• FEM SIMULATION AND ANALYSIS OF CRUCIFORM BIAXIAL TENSILE TEST(2001)
• → A Wind Tunnel Test for Directional Control of Cruciform Parachutes(2006)