Thermogravimetric study on preparation of NiTiO3 in different reaction times

Thermogravimetric study on preparation of NiTiO3 in different reaction times

The thermodynamic properties of the fabrication of NiTiO 3 material in different reaction times are reported. The design of this material is accessible through a new efficient sol–gel methods, utilizing Ni(Ac) 2 ·4H 2 O and Ti(O i Pr) 4 as starting materials for the formation of NiTiO 3 final produc...

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Veröffentlicht in:Journal of thermal analysis and calorimetry 2016-12, Vol.126 (3), p.1499-1505
Hauptverfasser: Rodrigues, R. V., Muri, E. J. B., da Cruz, P. C. M., Marins, A. A. L., Khan, L. U., Oliveira, R. M., Matos, J. R., Brito, H. F., Machado, L. C.
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Schlagworte:
Analytical Chemistry
Chemistry
Chemistry and Materials Science
Coordination compounds
Decomposition
Decomposition reactions
Exothermic reactions
Inorganic Chemistry
Measurement Science and Instrumentation
Nickel compounds
Physical Chemistry
Polymer Sciences
Precursors
Reaction time
Sol-gel processes
Thermal decomposition
Thermal stability
Thermodynamic properties
Titanates
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container_issue 3
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container_title Journal of thermal analysis and calorimetry
container_volume 126
creator Rodrigues, R. V.
Muri, E. J. B.
da Cruz, P. C. M.
Marins, A. A. L.
Khan, L. U.
Oliveira, R. M.
Matos, J. R.
Brito, H. F.
Machado, L. C.
description The thermodynamic properties of the fabrication of NiTiO 3 material in different reaction times are reported. The design of this material is accessible through a new efficient sol–gel methods, utilizing Ni(Ac) 2 ·4H 2 O and Ti(O i Pr) 4 as starting materials for the formation of NiTiO 3 final product through thermal decomposition. The thermogravimetric (TG) and differential scanning calorimetric (DSC) techniques were used to analyze the reaction of Ni(Ac) 2 ·4H 2 O and Ti(O i Pr) 4 , which produces precursor materials at 0.5, 1, 2, 24, 48 and 72 h of reaction times, as well as the thermal stability of these precursors and the final product. The DSC data show an exothermic phenomenon of releasing large amount of energy of −1393 J/g at T Peak 655 K due to the first event of decomposition started at T Onset 607 K and finished at T Endset 663 K for the precursor materials obtained at 0.5 h of reaction, showing the presence of starting materials in this precursor. A similar exothermic behavior was observed in the sample of 1 h of reaction time and was vanished in the materials obtained at 2–72 h of reaction, indicating the influence of the time on the completion of reaction and formation of NiTiO 3 crystalline phase as final product of thermal decomposition. In addition, using the information obtained from the TG/DSC, XRD and FTIR analyses, the optimum temperature for the thermal decomposition of the precursor materials to NiTiO 3 with fairly high crystallinity was also determined and discussed.
doi_str_mv 10.1007/s10973-016-5836-5
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V. ; Muri, E. J. B. ; da Cruz, P. C. M. ; Marins, A. A. L. ; Khan, L. U. ; Oliveira, R. M. ; Matos, J. R. ; Brito, H. F. ; Machado, L. C.</creator><creatorcontrib>Rodrigues, R. V. ; Muri, E. J. B. ; da Cruz, P. C. M. ; Marins, A. A. L. ; Khan, L. U. ; Oliveira, R. M. ; Matos, J. R. ; Brito, H. F. ; Machado, L. C.</creatorcontrib><description>The thermodynamic properties of the fabrication of NiTiO 3 material in different reaction times are reported. The design of this material is accessible through a new efficient sol–gel methods, utilizing Ni(Ac) 2 ·4H 2 O and Ti(O i Pr) 4 as starting materials for the formation of NiTiO 3 final product through thermal decomposition. The thermogravimetric (TG) and differential scanning calorimetric (DSC) techniques were used to analyze the reaction of Ni(Ac) 2 ·4H 2 O and Ti(O i Pr) 4 , which produces precursor materials at 0.5, 1, 2, 24, 48 and 72 h of reaction times, as well as the thermal stability of these precursors and the final product. The DSC data show an exothermic phenomenon of releasing large amount of energy of −1393 J/g at T Peak 655 K due to the first event of decomposition started at T Onset 607 K and finished at T Endset 663 K for the precursor materials obtained at 0.5 h of reaction, showing the presence of starting materials in this precursor. A similar exothermic behavior was observed in the sample of 1 h of reaction time and was vanished in the materials obtained at 2–72 h of reaction, indicating the influence of the time on the completion of reaction and formation of NiTiO 3 crystalline phase as final product of thermal decomposition. 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C.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Thermogravimetric study on preparation of NiTiO3 in different reaction times</atitle><jtitle>Journal of thermal analysis and calorimetry</jtitle><stitle>J Therm Anal Calorim</stitle><date>2016-12-01</date><risdate>2016</risdate><volume>126</volume><issue>3</issue><spage>1499</spage><epage>1505</epage><pages>1499-1505</pages><issn>1388-6150</issn><eissn>1588-2926</eissn><abstract>The thermodynamic properties of the fabrication of NiTiO 3 material in different reaction times are reported. The design of this material is accessible through a new efficient sol–gel methods, utilizing Ni(Ac) 2 ·4H 2 O and Ti(O i Pr) 4 as starting materials for the formation of NiTiO 3 final product through thermal decomposition. 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In addition, using the information obtained from the TG/DSC, XRD and FTIR analyses, the optimum temperature for the thermal decomposition of the precursor materials to NiTiO 3 with fairly high crystallinity was also determined and discussed.</abstract><cop>Dordrecht</cop><pub>Springer Netherlands</pub><doi>10.1007/s10973-016-5836-5</doi><tpages>7</tpages></addata></record>
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subjects Analytical Chemistry
Chemistry
Chemistry and Materials Science
Coordination compounds
Decomposition
Decomposition reactions
Exothermic reactions
Inorganic Chemistry
Measurement Science and Instrumentation
Nickel compounds
Physical Chemistry
Polymer Sciences
Precursors
Reaction time
Sol-gel processes
Thermal decomposition
Thermal stability
Thermodynamic properties
Titanates
title Thermogravimetric study on preparation of NiTiO3 in different reaction times
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