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Reaction of hydrated ytterbium nitrate and copper nitrate with diglycolic acid at pH= 7 produced a new Yb-Cu mixed metal complex, Yb2Cu3L6. 6H2O(L= O(CH2COO)2). Complex Yb2Cu3O36C2H36 (Mr= 1437. 23) crystallized in hexagonalP6/mcc (No. 192) with cell parameters of a= 14. 344 (3), c= 15. 470(7) A,V= 2757(2) A 3; Z= 2; F(000) = 1390; Dcalc.= 1- 731 g/cm3 μ(MoKa) =45. 8 cm-1. The final agreernent factors are R= 0. 077 and Rw = 0.089 for 867 observed reflections with I>3δ(I). It has been characterized by elemental analysis, IR spectrum, magnetic measurement and X-ray crystallography. In the complex, the Yb3+ ion is 9-coordinated tothree ether oxygen and six carboxylate oxygen atoms from three ligands, the copper ionis coordinated to four oxygen atoms from four carboxylate groups of four ligands andtwo water molecules. The Yb3+ ions and the Cu2+ ions are connected by the carboxylate groups of the ligands, thus resulting in the formation of the complicated networkstructure.
Reaction of hydrated ytterbium nitrate and copper nitrate with diglycolic acid at pH = 7 produced a new Yb-Cu mixed metal complex, Yb2Cu3L6 6H2O (L═O (CH2COO) 2). Complex Yb2Cu3O36C2H36 (Mr = 1437.23) crystallized in hexagonalP6 / mcc (No. 192) with cell parameters of a = 14. 344 (3), c = 15. 470 (7) A, V = 2757 (2) A3; Z = 2; F (000) = 1390; The final agreernent factors are R = 0.077 and Rw = 0.089 for 867, with I> 3δ (I). It has been been found that Dfcc = 1-731 g / cm3 μ (MoKa) = 45.8 cm- characterized by elemental analysis, IR spectrum, magnetic measurement and X-ray crystallography. In the complex, the Yb3 + ion is 9-coordinated tothree ether oxygen and six carboxylate oxygen atoms from three ligands, the copper ionis coordinated to four oxygen atoms from four carboxylate groups of four ligands andtwo water molecules. The Yb3 + ions and the Cu2 + ions are connected by the carboxylate groups of the ligands, thereby resulting in the formation of the complicated networkstructure.