The solvothermal reaction between the rigid spacer 3,3′,5,5′-tetramethyl-4,4′-bipyrazole (H2Me4BPZ) and a number of transition metal salts promoted the formation of the coordination polymers [M(Me4BPZ)] (M = Zn, 1; Co, 2; Cd, 3; Cu, 4). Ab initio X-ray powder diffraction analyses revealed the main structural aspects of the four materials. 1 and 2 are representative examples of the so-called isoreticular strategy: isostructural to [M(BPZ)] and [M(BDP)] (H2BPZ = 4,4′- bipyrazole; H2BDP = 1,4-bis(1H-pyrazol-4-yl)benzene), they feature three-dimensional (3-D) porous networks containing square-shaped channels. In 3, tetrahedral Cd(II) ions are arranged within homochiral helices reciprocally linked by radial Me4BPZ spacers, overall creating a 3-D nonporous network. Finally, the 3-D porous framework of 4 comprises square Cu4 nodes linked to eight neighboring ones by the bridging spacers. Thermogravimetric analyses, coupled to variable-temperature X-ray powder diffraction, demonstrated the remarkable thermal robustness of all the materials, decomposing above 300 °C, and their stability for consecutive heating−cooling cycles. N2 and CO2 adsorption measurements at 77 and 273 K, respectively, were employed to probe the permanent porosity of the materials and to give a coherent picture of their textural properties including specific surface areas, micro- and mesopore volumes, as well as size distributions.

Enlarging an isoreticular family:3,3′,5,5′-tetramethyl-4,4′-bipyrazolato-based porous coordination polymers

PETTINARI, Claudio;MARCHETTI, Fabio;
2013-01-01

Abstract

The solvothermal reaction between the rigid spacer 3,3′,5,5′-tetramethyl-4,4′-bipyrazole (H2Me4BPZ) and a number of transition metal salts promoted the formation of the coordination polymers [M(Me4BPZ)] (M = Zn, 1; Co, 2; Cd, 3; Cu, 4). Ab initio X-ray powder diffraction analyses revealed the main structural aspects of the four materials. 1 and 2 are representative examples of the so-called isoreticular strategy: isostructural to [M(BPZ)] and [M(BDP)] (H2BPZ = 4,4′- bipyrazole; H2BDP = 1,4-bis(1H-pyrazol-4-yl)benzene), they feature three-dimensional (3-D) porous networks containing square-shaped channels. In 3, tetrahedral Cd(II) ions are arranged within homochiral helices reciprocally linked by radial Me4BPZ spacers, overall creating a 3-D nonporous network. Finally, the 3-D porous framework of 4 comprises square Cu4 nodes linked to eight neighboring ones by the bridging spacers. Thermogravimetric analyses, coupled to variable-temperature X-ray powder diffraction, demonstrated the remarkable thermal robustness of all the materials, decomposing above 300 °C, and their stability for consecutive heating−cooling cycles. N2 and CO2 adsorption measurements at 77 and 273 K, respectively, were employed to probe the permanent porosity of the materials and to give a coherent picture of their textural properties including specific surface areas, micro- and mesopore volumes, as well as size distributions.
2013
262
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11581/288781
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