5743-07-7Relevant academic research and scientific papers
Polymorphism of anhydrous cadmium oxalate CdC2O4
Puzan, Anna N.,Baumer, Vyacheslav N.,Vashchenko, Valerii V.,Sofronov, Dmitriy S.
, p. 751 - 757 (2017/09/01)
Crystal structure of orthorhombic γ-CdC2O4 (sp.gr. Pmna, a = 7.3217(1), b = 6.0231(1), c = 9.2545(2) ?, V = 408.12(1) ?3, Z = 8, Dx = 3.262 Μg·m?3) was solved from the powder diffraction pattern. Each metal atom in the structure is co-ordinated by seven oxygen atoms which belong to five oxalate-ions. Crystal packing containing the noticeable cavities in the [101] and [001] directions is not close and essentially differs from the known disordered α- and ordered β-modifications of transition metal oxalates. This modification seems to be meta-stable. It was found that spontaneous γ→β phase transition takes place for the γ-CdC2O4 aged during 6 month in air. This transition may be accelerated via the heating of γ-CdC2O4 with excessive amounts of oxalic acid.
Crystal structure and thermal characterization of cadmium oxalate [CdC2O4 · 3H2O] and barium-doped cadmium oxalate [Ba0.5Cd0.5(C2O4)2 · 5H2O] single crystal
Ezhil Raj, A. Moses,Jayanthi, D. Deva,Jothy, V. Bena,Jayachandran,Sanjeeviraja
, p. 1535 - 1540 (2009/08/08)
Pure cadmium oxalate trihydrate (COT) and barium added cadmium oxalate (BCO) single crystals were grown by controlled diffusion of Cd2+ and Ba2+ ions in silica gel at ambient temperature. A single test tube technique coupled with gel
Coordination polymers with pyridine-2,4,6-tricarboxylic acid and alkaline-earth/lanthanide/transition metals: Synthesis and X-ray structures
Das, Madhab C.,Ghosh, Sujit K.,Sanudo, E. Carolina,Bharadwaj, Parimal K.
, p. 1644 - 1658 (2009/06/17)
Pyridine-2,4,6-tricarboxylic acid (ptcH3) reacts with Cd(ii), Mn(ii), Ni(ii), Mg(ii), Ca(ii), Sr(ii), Ba(ii), Dy(iii) salts forming different products depending on the reaction conditions. In the presence of pyridine at room temperature the ace
Decomposition of ascorbic acid in the presence of cadmium ions leads to formation of a polymeric cadmium oxalate species with peculiar structural features.
Orioli, Pierluigi,Bruni, Bruno,Di Vaira, Massimo,Messori, Luigi,Piccioli, Francesca
, p. 4312 - 4314 (2008/10/08)
Slow decomposition of L-ascorbic acid, carried out under aerobic conditions and in the presence of cadmium ions, results in formation of a crystalline product that is highly insoluble in water. This compound has been identified as a cadmium oxalate polymeric species with formula Cd(C(2)O(4)).3H(2)O. The crystal structure of this compound is described. Relevant crystal data are the following: C(4)H(12)O(14)Cd(2), fw = 508.94; triclinic; space group P1 (No. 1); a = 6.010(1) A, b = 6.668(1) A, c = 8.498(1) A; alpha = 74.64(1) degrees, beta = 74.25(1) degrees, gamma = 80.91(1) degrees; V = 314.7(5) A(3); Z = 1.
Crystal structures of isomorphous cadmium(II) and lead(II) oxalate trihydrates
Sheng-Hua, Huang,Ru-Ji, Wang,Mak, Thomas C. W.
, p. 99 - 104 (2007/10/02)
The isomorphous cadmium(II) oxalate trihydrate (I) and lead(II) oxalate trihydrate (II) crystals belong to space group P with Z = 2.The crystallographic parameters for compound I are: a = 6.006(1), b = 6.663(1), c = 8.497(1) Angstroem, α = 74.76(1), β
