Please use this identifier to cite or link to this item: http://lib.jncasr.ac.in:8080/jspui/handle/10572/1033
Title: Energetics Of Rare Earth Manganese Perovskites A1-xA'xMnO3 (A = La, Nd, Y and A' = Sr, La) Systems
Authors: Laberty, Christel
Navrotsky, Alexandra
Rao, C N R
Alphonse, Pierre
Keywords: High-Temperature Calorimetry
Giant Magnetoresistance
Electrical-Conductivity
Doped Lamno3
Stability
Oxide
Directions
Behavior
Progress
Ca
Issue Date: Jul-1999
Publisher: Academic Press Inc
Citation: Journal of Solid State Chemistry 145(1), 77-87 (1999)
Abstract: High temperature reaction calorimetry using molten lead berate as solvent has been used to study the thermochemistry of NdMnO3, YMnO3, La1-xSrxMnO3 (with 0 < x < 0.5), and Ln(0.5)Ca(0.5)MnO(3) (with Ln = La, Nd, Y), The enthalpies of formation of these multicomponent oxides from their binary constituents have been calculated from the measured enthalpy of drop solution, The energetic stability of the perovskite depends on the size of the A cation, The enthalpy of formation of YMnO3 (smallest A cation) is more endothermic than those of NdMnO3 and LaMnO3. The energetics of the perovskite also depends on the oxidation state of the B site's ions. In the La1-xSrxMnO3 system, the energetic stability of the structure increases with the Mn4+/Mn3+ ratio, The new values of the enthalpies of oxidations, with reliable standard entropies, were used to plot the phase stability diagram of the lanthanum-manganese-oxygen system in the temperature range 300-1100 K, The LaMnO3/MnO phase boundary evaluated in this study agrees with the one published by Atsumi et nl. calculated from thermogravimetric and conductivity measurements. (C) 1999 Academic Press.
Description: Restricted Access
URI: http://hdl.handle.net/10572/1033
Other Identifiers: 0022-4596
Appears in Collections:Research Papers (Prof. C.N.R. Rao)

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