Synthesis, thermal properties and spectroscopic study of solid mandelate of light trivalent lanthanides

► From TG curves and complexometry results the general formula could be established. ► The thermal stability and thermal decomposition were established from TG-DTA curves. ► The dehydration enthalpies were calculated from DSC curves. ► The gaseous products evolved during the thermal decomposition we...

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Published in:Thermochimica acta 2012-05, Vol.536, p.6-14
Main Authors: Gigante, A.C., Gomes, D.J.C., Lima, L.S., Caires, F.J., Treu-Filho, O., Ionashiro, M.
Format: Article
Language:English
Subjects:
carbon dioxide
ceric oxide
Chemical thermodynamics
Chemistry
Data processing
differential scanning calorimetry
europium
Exact sciences and technology
Fourier transform infrared spectroscopy
gadolinium
General and physical chemistry
General. Theory
lanthanum
Light trivalent lanthanides
Mandelate
neodymium
praseodymium
samarium
spectral analysis
Theoretical infrared spectroscopy
thermal analysis
Thermal behavior
thermal degradation
thermal stability
thermogravimetry
X-radiation
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container_title Thermochimica acta
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creator Gigante, A.C.
Gomes, D.J.C.
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Ionashiro, M.
description ► From TG curves and complexometry results the general formula could be established. ► The thermal stability and thermal decomposition were established from TG-DTA curves. ► The dehydration enthalpies were calculated from DSC curves. ► The gaseous products evolved during the thermal decomposition were monitored by FTIR. Characterization, thermal stability and thermal decomposition of light trivalent lanthanide mandelates Ln(C6H5CH(OH)CO2)3·nH2O (Ln=La to Gd, except Pm) were investigated employing simultaneous thermogravimetry and differential thermal analysis (TG–DTA), differential scanning calorimetry (DSC), experimental and theoretical infrared spectroscopy, elemental analysis, X-ray diffractometry, complexometry and TG–DSC coupled to FTIR. The dehydration of the lanthanum, samarium, europium and gadolinium compounds occurs in a single step while for praseodymium and neodymium ones it occurs in two consecutive steps. The thermal decomposition of the anhydrous compounds occurs in three, four or five consecutive steps, with formation of the respective oxides CeO2, Pr6O11 and Ln2O3 (Ln=La, Nd to Gd) as final residues. The results also provide information concerning the composition, thermal behavior and gaseous products evolved during the thermal decomposition of these compounds. The theoretical and experimental spectroscopic data suggest the possible modes of coordination of the ligand with the lanthanum.
doi_str_mv 10.1016/j.tca.2012.02.019
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Characterization, thermal stability and thermal decomposition of light trivalent lanthanide mandelates Ln(C6H5CH(OH)CO2)3·nH2O (Ln=La to Gd, except Pm) were investigated employing simultaneous thermogravimetry and differential thermal analysis (TG–DTA), differential scanning calorimetry (DSC), experimental and theoretical infrared spectroscopy, elemental analysis, X-ray diffractometry, complexometry and TG–DSC coupled to FTIR. The dehydration of the lanthanum, samarium, europium and gadolinium compounds occurs in a single step while for praseodymium and neodymium ones it occurs in two consecutive steps. The thermal decomposition of the anhydrous compounds occurs in three, four or five consecutive steps, with formation of the respective oxides CeO2, Pr6O11 and Ln2O3 (Ln=La, Nd to Gd) as final residues. The results also provide information concerning the composition, thermal behavior and gaseous products evolved during the thermal decomposition of these compounds. 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Characterization, thermal stability and thermal decomposition of light trivalent lanthanide mandelates Ln(C6H5CH(OH)CO2)3·nH2O (Ln=La to Gd, except Pm) were investigated employing simultaneous thermogravimetry and differential thermal analysis (TG–DTA), differential scanning calorimetry (DSC), experimental and theoretical infrared spectroscopy, elemental analysis, X-ray diffractometry, complexometry and TG–DSC coupled to FTIR. The dehydration of the lanthanum, samarium, europium and gadolinium compounds occurs in a single step while for praseodymium and neodymium ones it occurs in two consecutive steps. The thermal decomposition of the anhydrous compounds occurs in three, four or five consecutive steps, with formation of the respective oxides CeO2, Pr6O11 and Ln2O3 (Ln=La, Nd to Gd) as final residues. The results also provide information concerning the composition, thermal behavior and gaseous products evolved during the thermal decomposition of these compounds. 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Characterization, thermal stability and thermal decomposition of light trivalent lanthanide mandelates Ln(C6H5CH(OH)CO2)3·nH2O (Ln=La to Gd, except Pm) were investigated employing simultaneous thermogravimetry and differential thermal analysis (TG–DTA), differential scanning calorimetry (DSC), experimental and theoretical infrared spectroscopy, elemental analysis, X-ray diffractometry, complexometry and TG–DSC coupled to FTIR. The dehydration of the lanthanum, samarium, europium and gadolinium compounds occurs in a single step while for praseodymium and neodymium ones it occurs in two consecutive steps. The thermal decomposition of the anhydrous compounds occurs in three, four or five consecutive steps, with formation of the respective oxides CeO2, Pr6O11 and Ln2O3 (Ln=La, Nd to Gd) as final residues. The results also provide information concerning the composition, thermal behavior and gaseous products evolved during the thermal decomposition of these compounds. 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source ScienceDirect Journals
subjects carbon dioxide
ceric oxide
Chemical thermodynamics
Chemistry
Data processing
differential scanning calorimetry
europium
Exact sciences and technology
Fourier transform infrared spectroscopy
gadolinium
General and physical chemistry
General. Theory
lanthanum
Light trivalent lanthanides
Mandelate
neodymium
praseodymium
samarium
spectral analysis
Theoretical infrared spectroscopy
thermal analysis
Thermal behavior
thermal degradation
thermal stability
thermogravimetry
X-radiation
title Synthesis, thermal properties and spectroscopic study of solid mandelate of light trivalent lanthanides
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