Thermal analysis (TG–DSC, DSC–microscopy and EGA) and characterization of heavy trivalent lanthanides and yttrium isonicotinates

The trivalent lanthanide isonicotinates were synthesized to obtain stoichiometry Lu(IN) 3 and Ln(IN) 3 ·2H 2 O (Ln = Tb to Lu, and Y; IN = isonicotinate). A deep study of the thermal behavior in oxidant (air) and inert (N 2 ) atmospheres was carried out using the following thermoanalytical technique...

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Bibliographic Details
Published in:Journal of thermal analysis and calorimetry 2019-10, Vol.138 (1), p.309-319
Main Authors: Nunes, W. D. G., Teixeira, J. A., do Nascimento, A. L. C. S., Ekawa, B., Ionashiro, M., Caires, F. J.
Format: Article
Language:English
Subjects:
Analytical Chemistry
Atmospheres
Chemistry
Chemistry and Materials Science
Decomposition
Dehydration
Differential scanning calorimetry
Gas analysis
Heat measurement
Infrared spectroscopy
Inorganic Chemistry
Lanthanides
Measurement Science and Instrumentation
Phase transitions
Physical Chemistry
Polymer Sciences
Stoichiometry
Thermal decomposition
Thermodynamic properties
Thermogravimetric analysis
Thermogravimetry
Yttrium
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Summary:The trivalent lanthanide isonicotinates were synthesized to obtain stoichiometry Lu(IN) 3 and Ln(IN) 3 ·2H 2 O (Ln = Tb to Lu, and Y; IN = isonicotinate). A deep study of the thermal behavior in oxidant (air) and inert (N 2 ) atmospheres was carried out using the following thermoanalytical techniques: simultaneous thermogravimetry and differential scanning calorimetry (TG–DSC), differential scanning calorimetry (DSC) and evolved gas analysis (EGA by TG–DSC–FTIR). From these results, it was possible to determine that dehydration occurs in a single step and the thermal decomposition of the anhydrous compounds occurs in one or two (air), and two or three steps (N 2 ). The final residues of thermal decomposition were Tb 4 O 7 and Ln 2 O 3 (Ln = Dy to Lu, and Y) in air atmosphere, while in N 2 atmosphere the mass loss is still being observed up to 1000 °C. The identified gaseous products evolved during the thermal decomposition in dynamic dry air and nitrogen atmospheres were water, CO 2 , pyridine and CO. From these thermoanalytical data, it was possible to propose a general equation of thermal decomposition of these compounds in the N 2 atmosphere. DSC curves of Tb and Ho compounds presented endothermic peaks corresponding to a reversible phase transition, confirmed by powder X-ray diffractometry (XRD), not previously reported. In addition, infrared vibrational spectroscopy (IR) suggests the coordination through carboxylate as bridging bidentate ligand toward the heavy trivalent lanthanides metals. This paper is complementary to our previous study involving the series of light trivalent lanthanides isonicotinates.
ISSN:1388-6150
1588-2926
DOI:10.1007/s10973-019-08112-z