12 Result(s)
within
Ashish Jain
Analytical Chemistry
Measurement Science and Instrumentation
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Article
Effect of europium on the structural and thermal properties of pristine iron phosphate glass
In the present study, effect of europium on the structural and thermal properties of iron phosphate glass was studied and compared with that of pristine iron phosphate glass. Europium-loaded iron phosphate gla...
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Article
High-temperature calorimetric measurements on RE2TeO6 (RE = Gd, Er)
The ternary compounds of Gd2TeO6 (s) and Er2TeO6 (s) were prepared by solid-state route and characterized by XRD, ICP-AES and ICP-MS techniques. Enthalpy measurements were taken on these compounds by inverse drop...
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Article
Oxidation behavior of U-6 mass% Zr alloy
The oxidation behavior of U-6 mass% Zr alloy was studied by using thermogravimetric technique. Oxidation reaction was carried out by heating alloy sample in a stream of oxygen. Both isothermal and non-isotherm...
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Article
Determination of the thermodynamic stability of europium boride (EuB6)
The standard Gibbs energy of formation of europium boride ( $$ \Delta_{\text{f}} G^{{\circ }} \left\langle { {\text{EuB}}_{6} } \right\...
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Article
Oxidation of boron carbide powder
The oxidation of boron carbide powder was studied by using thermogravimetric technique. The oxidation was carried out by heating boron carbide powder in a stream of oxygen. Both isothermal and non-isothermal m...
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Article
Thermodynamic characterization of Fe2TeO6
The standard Gibbs energy of formation of iron tellurate, Fe2TeO6 (s), was determined by measuring the vapour pressure of TeO2 (g) over the phase mixture Fe2TeO6 (s) + Fe2O3 (s) in the temperature range of 1103–1...
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Article
Thermodynamic investigations on M2TeO6 (s) and M6TeO12 (s) (M = Gd, Er)
The standard Gibbs energies of formation of M2TeO6 (s) and M6TeO12 (s) (where M = Gd, Er) were obtained from vapour pressure measurements by employing thermogravimetry-based transpiration technique. The vapour pr...
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Article
Standard Gibbs energies of formation of M2TeO6 (s) (M = Eu, Dy, Yb)
The standard Gibbs energies of formation of M2TeO6 (where M: Eu, Dy, Yb) were obtained from vapour pressure measurements. The vapour pressures of TeO2 (g) were measured by employing thermogravimetry-based transpi...
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Article
Thermodynamic studies on the systems M–Te–O (M = Nd, Sm)
The standard Gibbs energies of formation of Nd2TeO6 and M6TeO12 (where M = Nd, Sm) were determined from vapour pressure measurements. The vapour pressure of TeO2(g) was measured by employing thermogravimetry-base...
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Article
Thermodynamic studies on Sn–Te–O system
The standard Gibbs energy of formation of tin tellurate, SnTe3O8(s) was determined from its vapour pressure measurements over the temperature range 973–1,158 K by employing thermogravimetry-based transpiration me...
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Article
Thermodynamic investigation on M–Te–O (M = Sc, Y) system
The standard Gibbs energy of formation of M2TeO6 and M6TeO12 (where M = Sc, Y), was determined from its vapor pressure measurements by employing thermogravimetry-based transpiration technique. This technique was ...
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Article
Thermodynamic studies on Pr2TeO6
The standard Gibbs energy of formation of Pr2TeO6 $$ (\Updelta_{\text{f}} G^{^\circ } \left( {{ \Pr }_{ 2} {\text{TeO}...
