C. D. Brandle scite author profile

The thermal expansion coefficients of DyScO3 and GdScO3 were determined from298 to 1273 K using x-ray diffraction. The average thermal expansion coefficients of DyScO3 and GdScO3 were 8.4 and 10.9 ppm/K, respectively. No phase transitions were detected over this range, though the orthorhombicity decreased with increasing temperature. These thermal expansion coefficients are similar to other oxide perovskites (e.g., BaTiO3 or SrTiO3), making these rare-earth scandates promising substrates for the growth of epitaxial thin films of many oxide perovskites that have similar lattice spacing and thermal expansion coefficients.

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Congruent Composition and Li‐Rich Phase Boundary of LiNbO₃

O’Bryan

Gallagher

Brandle

1985

Journal of the American Ceramic Society

189

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The congruent composition of LiNbO3 was determined precisely by correlating crystal growth compositions with the Curie temperatures of samples quenched from a melt before and after crystal growth and of various sections of crystals grown from that melt. The initial melt composition was determined by control of Li2CO3 and Nb2O5 contents. The melt compositions were varied from 47 to 49 mol% Li2O. The variation of Te with melt composition was found to follow Te= 9095.2 − 369.05C + 4.228C2, where C is mol% Li2O. High‐temperature DTA was used to determine Te with a precision of ±2°C. Above 1000°C the Li‐rich phase boundary was found to be a function of temperature by determining the weight gain after complete lithiation of congruently grown crystals. This boundary curves slightly toward lower Li2O content as temperature increases. The congruent composition of LiNbO3 contains 48.45 mol% Li2O and has a measured Curie temperature of 1138°± 2°C.

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Thermal analysis of rare earth gallates and aluminates

et al. 1990

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Dilatometry, high-temperature x-ray diffraction, differential thermal analysis, and differential scanning calorimetry have been performed on LaGaO3, NdGaO3, PrGaO3, SmAlO3, and LaAlO3 single crystals grown by the Czochralski technique. First order phase transitions have been located at 145 °C for LaGaO3 and 785 °C for SmAlO3, and Ai/ has been measured for the LaGaO3 transition. Second order transitions have been identified for LaGaO3, PrGaO3, NdGaO3, and LaAlO3. The usefulness of these compounds as substrates for high temperature superconducting films is discussed in terms of thermal expansion matching.

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Physical properties of a Y3Al5012 melt

Fratello

Brandle

1993

Journal of Crystal Growth

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Czochralski growth of oxides

Brandle

2004

Journal of Crystal Growth

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C. D. Brandle

Thermal expansion of the new perovskite substrates DyScO₃ and GdScO₃

Congruent Composition and Li‐Rich Phase Boundary of LiNbO₃

Thermal analysis of rare earth gallates and aluminates

Physical properties of a Y3Al5012 melt

Czochralski growth of oxides

Contact Info

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About

C. D. Brandle

Thermal expansion of the new perovskite substrates DyScO3 and GdScO3

Congruent Composition and Li‐Rich Phase Boundary of LiNbO3

Thermal analysis of rare earth gallates and aluminates

Physical properties of a Y3Al5012 melt

Czochralski growth of oxides

Contact Info

Product

Resources

About

Thermal expansion of the new perovskite substrates DyScO₃ and GdScO₃

Congruent Composition and Li‐Rich Phase Boundary of LiNbO₃