LATTICE ENERGY DETERMINATION AND ATOMISTIC SIMULATION 0F PEROVSKITE OXIDES
Determination of lattice energy, U, is an important work for ionic compounds, due to it is the driving force in the compounds formation. The objective this work are twofold, firstly to determine lattice energy of perovskite oxide using an approximate equation and compare lattice energy from the resu...
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id-itb.:358772019-03-04T13:59:46ZLATTICE ENERGY DETERMINATION AND ATOMISTIC SIMULATION 0F PEROVSKITE OXIDES Tehubijuluw, Hellna Kimia Indonesia Theses Lattice energy, Perovskite oxides, Lattice energy equation, and Atomistic simulation INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/35877 Determination of lattice energy, U, is an important work for ionic compounds, due to it is the driving force in the compounds formation. The objective this work are twofold, firstly to determine lattice energy of perovskite oxide using an approximate equation and compare lattice energy from the resulted simple equation and atomic simulation results. The perovskite oxides used on this study were rare-earth orthoferite (LnFeO3) and aluminate (LnAlO3). These ionic terner compounds adopt space group Pbnm or R-3c. Lattice energy of perovskite oxides were calculated using Glasser, (G), Glasser-Jenkins, (GJ), and Yoder-Flora, (YF) equations. Plots of Born-Haber lattice energies (U(BHC)) vs. U(G), U(GJ) and U(YF) resulted in R2 = 0.8872, 0.5919, and 0.9982. Thus the obtained best fit was U(BHC) vs. U(YF). The simple equation describing the best plot wasUperovskite oxide =? 1,0579U(YF) – 835,06? kJ/mol. Atomistic simulation method has also been carried out to determine lattice energy and the obtained results were compared with those obtained from simple lattice energy equation, good agreement were obtained in these two oxides series. The obtained structural parameters also agreed well with those obtained from X-ray diffraction studies. text |
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Kimia Tehubijuluw, Hellna LATTICE ENERGY DETERMINATION AND ATOMISTIC SIMULATION 0F PEROVSKITE OXIDES |
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Determination of lattice energy, U, is an important work for ionic compounds, due to it is the driving force in the compounds formation. The objective this work are twofold, firstly to determine lattice energy of perovskite oxide using an approximate equation and compare lattice energy from the resulted simple equation and atomic simulation results. The perovskite oxides used on this study were rare-earth orthoferite (LnFeO3) and aluminate (LnAlO3). These ionic terner compounds adopt space group Pbnm or R-3c. Lattice energy of perovskite oxides were calculated using Glasser, (G), Glasser-Jenkins, (GJ), and Yoder-Flora, (YF) equations. Plots of Born-Haber lattice energies (U(BHC)) vs. U(G), U(GJ) and U(YF) resulted in R2 = 0.8872, 0.5919, and 0.9982. Thus the obtained best fit was U(BHC) vs. U(YF). The simple equation describing the best plot wasUperovskite oxide =? 1,0579U(YF) – 835,06? kJ/mol. Atomistic simulation method has also been carried out to determine lattice energy and the obtained results were compared with those obtained from simple lattice energy equation, good agreement were obtained in these two oxides series. The obtained structural parameters also agreed well with those obtained from X-ray diffraction studies. |
| format |
Theses |
| author |
Tehubijuluw, Hellna |
| author_facet |
Tehubijuluw, Hellna |
| author_sort |
Tehubijuluw, Hellna |
| title |
LATTICE ENERGY DETERMINATION AND ATOMISTIC SIMULATION 0F PEROVSKITE OXIDES |
| title_short |
LATTICE ENERGY DETERMINATION AND ATOMISTIC SIMULATION 0F PEROVSKITE OXIDES |
| title_full |
LATTICE ENERGY DETERMINATION AND ATOMISTIC SIMULATION 0F PEROVSKITE OXIDES |
| title_fullStr |
LATTICE ENERGY DETERMINATION AND ATOMISTIC SIMULATION 0F PEROVSKITE OXIDES |
| title_full_unstemmed |
LATTICE ENERGY DETERMINATION AND ATOMISTIC SIMULATION 0F PEROVSKITE OXIDES |
| title_sort |
lattice energy determination and atomistic simulation 0f perovskite oxides |
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https://digilib.itb.ac.id/gdl/view/35877 |
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