Guangshe Li scite author profile

The synthesis of nanocrystalline powders of zirconia often produces the tetragonal phase, which for coarse-grained powders is stable only at high temperatures and transforms into the monoclinic form on cooling. This stability reversal has been suggested to be due to differences in the surface energies of the monoclinic and tetragonal polymorphs. In the present study, we have used high-temperature oxide melt solution calorimetry to test this hypothesis directly. We measured the excess enthalpies of nanocrystalline tetragonal, monoclinic, and amorphous zirconia. Monoclinic ZrO 2 was found to have the largest surface enthalpy and amorphous zirconia the smallest. Stability crossovers with increasing surface area between monoclinic, tetragonal, and amorphous zirconia were confirmed. The surface enthalpy of amorphous zirconia was estimated to be 0.5 J/m 2 . The linear fit of excess enthalpies for nanocrystalline zirconia, as a function of area from nitrogen adsorption (BET) gave apparent surface enthalpies of 6.4 and 2.1 J/m 2 , for the monoclinic and tetragonal polymorphs, respectively. Due to aggregation, the surface areas calculated from crystallite size are larger than those measured by BET. The fit of enthalpy versus calculated total interface/ surface area gave surface enthalpies of 4.2 J/m 2 for the monoclinic form and 0.9 J/m 2 for the tetragonal polymorph. From solution calorimetry, the enthalpy of the monoclinic to tetragonal phase transition for ZrO 2 was estimated to be 1071 kJ/mol and amorphization enthalpy to be 3472 kJ/mol. J ournal

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Heat capacities and thermodynamic functions of TiO2 anatase and rutile: Analysis of phase stability

Smith

Stevens

Liu

et al. 2009

American Mineralogist

237

127

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Understanding of the Finite Size Effects on Lattice Vibrations and Electronic Transitions of Nano α-Fe₂O₃

Wang

et al. 2005

J. Phys. Chem. B

121

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Alpha-Fe(2)O(3) nanocrystals with controlled diameters ranging from 10 to 63 nm were successfully prepared. The finite size effects in alpha-Fe(2)O(3) nanocrystals were probed by X-ray diffraction, infrared spectroscopy, thermogravimetric analysis, UV-visible spectrum, and magnetization measurements. With a size reduction, alpha-Fe(2)O(3) nanocrystals showed a lattice expansion and an enlarged axial ratio of c/a that is in apparent contradiction to the previous conjecture of high lattice symmetry for alpha-Fe(2)O(3) nanocrystals at small sizes. The surface terminations of alpha-Fe(2)O(3) nanocrystals were found to be highly hydrated with a size dependence that surprisingly follows the surface hydration chemistry of anatase TiO2 nanocrystals reported recently by us. The lattice vibrations, electronic transitions, and magnetic properties of alpha-Fe(2)O(3) nanocrystals were significantly modified by surface hydration and lattice expansion. The finite size effects that occurred in alpha-Fe(2)O(3) nanocrystals at small sizes were first found to give a red shift in frequencies of perpendicular mode at 540 cm(-1), a blue shift in the electronic transition of double exciton process in visible region, and a significant decrease in the coercive force.

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Transport property and Raman spectra of nanocrystalline solid solutions Ce0.8Nd0.2O2−δ with different particle size

Xiao

et al. 2001

Materials Chemistry and Physics

143

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Guangshe Li

Energy Crossovers in Nanocrystalline Zirconia

Heat capacities and thermodynamic functions of TiO2 anatase and rutile: Analysis of phase stability

Understanding of the Finite Size Effects on Lattice Vibrations and Electronic Transitions of Nano α-Fe₂O₃

Transport property and Raman spectra of nanocrystalline solid solutions Ce0.8Nd0.2O2−δ with different particle size

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Guangshe Li

Energy Crossovers in Nanocrystalline Zirconia

Heat capacities and thermodynamic functions of TiO2 anatase and rutile: Analysis of phase stability

Understanding of the Finite Size Effects on Lattice Vibrations and Electronic Transitions of Nano α-Fe2O3

Transport property and Raman spectra of nanocrystalline solid solutions Ce0.8Nd0.2O2−δ with different particle size

Contact Info

Product

Resources

About

Understanding of the Finite Size Effects on Lattice Vibrations and Electronic Transitions of Nano α-Fe₂O₃