摘要
A novel metal-organic framework, namely [Zn(C20H13OsP)]n (1), has been hydro- thermally synthesized through the reaction of 5-(oxidediphenylphosphino)isophthalic acid (H2L) with Zn(II) salt. The title compound crystallizes in monoclinic, space group P21/c with a = 11.0966(10), b = 14.5651(14), c = 14.7311(15) A, fl = 130.022(6)°, C2oH13OsPZn, Mr = 429.64, V= 1823.3(3) ./k3, Dc = 1.565 g/cm3, F(000) = 872, g = 1.463 mm"1, S = 1.054 and Z = 4. The final R = 0.0270 and wR = 0.0739 for 2769 observed reflections with 1 〉 20(/). In the title complex, the Zn2(CO2)2 binuclear clusters are linked by L2- ligands to result in a pillared layer structure in the bc plane, which is a (4,4)-net composed of helical chains with opposite chirality by sharing Zn2(CO2)2 units. Adjacent'layers are further associated together through Zn-O bonds involving the metal center and the oxygen atom of P=O group to achieve a 3D architecture, in which one-dimensional qua&angled channel displays the interweaving of two pairs of coaxial double-helical chains with opposite chirality. The luminescence property and thermogravimetric analysis of the title complex were investigated.
A novel metal-organic framework, namely [Zn(C20H13OsP)]n (1), has been hydro- thermally synthesized through the reaction of 5-(oxidediphenylphosphino)isophthalic acid (H2L) with Zn(II) salt. The title compound crystallizes in monoclinic, space group P21/c with a = 11.0966(10), b = 14.5651(14), c = 14.7311(15) A, fl = 130.022(6)°, C2oH13OsPZn, Mr = 429.64, V= 1823.3(3) ./k3, Dc = 1.565 g/cm3, F(000) = 872, g = 1.463 mm"1, S = 1.054 and Z = 4. The final R = 0.0270 and wR = 0.0739 for 2769 observed reflections with 1 〉 20(/). In the title complex, the Zn2(CO2)2 binuclear clusters are linked by L2- ligands to result in a pillared layer structure in the bc plane, which is a (4,4)-net composed of helical chains with opposite chirality by sharing Zn2(CO2)2 units. Adjacent'layers are further associated together through Zn-O bonds involving the metal center and the oxygen atom of P=O group to achieve a 3D architecture, in which one-dimensional qua&angled channel displays the interweaving of two pairs of coaxial double-helical chains with opposite chirality. The luminescence property and thermogravimetric analysis of the title complex were investigated.
基金
supported by the International Technology Cooperation Project of Science and Technology Department of Henan Province(No.124300510050)
the National Natural Science Foundation of China(No.5119003)
