Fluorite-to-Aurivillius phase transformation kinetics in sol–gel derived SBT thin films

It was recently shown that phases forming in thin films undergo a coherency state change depending on the film thickness. For Nb-H thin films, the coherency state was reported to change at about 38 nm. In this study the impact of the coherency state on the phase transformation kinetics is investigated for Nb films of two different film thicknesses (25 nm and 80 nm), below and above the state change thickness. The phase transformation in thin metal-hydrogen films can be studied by surface topography analyses via scanning tunneling microscopy (STM) because of the strong local lattice expansion of the hydride precipitates. STM on Nb-H reveals fast phase transformation kinetics for the 25 nm Nb-film, and much slower kinetics for the 80 nm film. This is suggested to be related to the change in the coherency between the Nb-matrix and the hydride precipitates.

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Study on the Phase Transformation Kinetics of Sol-Gel DrivedTiO2Nanoparticles

Journal of Nanomaterials ◽

10.1155/2010/626978 ◽

2010 ◽

Vol 2010 ◽

pp. 1-5 ◽

Cited By ~ 20

Author(s):

H. Mehranpour ◽

M. Askari ◽

M. Sasani Ghamsari ◽

H. Farzalibeik

Keyword(s):

Activation Energy ◽

Phase Transformation ◽

Sol Gel ◽

Rutile Phase ◽

Transformation Kinetics ◽

X Ray ◽

Prepared Nanoparticles ◽

Phase Transformation Kinetics ◽

Diffusion Controlled ◽

Kinetics Of

Titanium dioxide nanopowders were synthesized by the diffusion controlled sol-gel process (LaMer model) and characterized by DTA-TG, XRD, and SEM. The preparedTiO2nanoparticles have uniform size and morphology, and the phase transformation kinetics of obtained material was studied by interpretation of the X-ray diffraction patterns peaks on the base of Avrami equation. The stating point of anatase-rutile phase transformation temperature in the prepared nanoparticles was found between 100 and200°C. A decreasing trend on the intensity of X-ray peaks of anatase phase was observed up to600°Cwhen the presence of the rutile phase became predominant. Results indicated that the transition kinetics of the diffusion controlled prepared nanoparticles was begun at low temperature, and it can be concluded that the nucleation and growth sites in these particles were more than other. However, it has been found that the nucleation activation energy of rutile phase was 20 kj/mol, and it is the lowest reported activation energy.

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Revisit of Phase Transformation Kinetics in PZT Thin Films by Sol-Gel Method Using Scanning Force Microscopy

Integrated Ferroelectrics ◽

10.1080/10584580490896580 ◽

2004 ◽

Vol 68 (1) ◽

pp. 247-258 ◽

Cited By ~ 4

Author(s):

BONGKI LEE ◽

CHANHYUNG KIM ◽

SEUNG-HYUN KIM ◽

HYUNJUNG SHIN

Keyword(s):

Thin Films ◽

Phase Transformation ◽

Sol Gel ◽

Scanning Force Microscopy ◽

Transformation Kinetics ◽

Pzt Thin Films ◽

Gel Method ◽

Sol Gel Method ◽

Force Microscopy ◽

Scanning Force

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Phase transformation kinetics induced in thin sol-gel PZT films under thermal annealing

Physics of the Solid State ◽

10.1134/1.1371374 ◽

2001 ◽

Vol 43 (5) ◽

pp. 902-907 ◽

Cited By ~ 1

Author(s):

V. Ya. Shur ◽

E. B. Blankova ◽

A. L. Subbotin ◽

E. A. Borisova ◽

A. V. Barannikov

Keyword(s):

Phase Transformation ◽

Thermal Annealing ◽

Sol Gel ◽

Transformation Kinetics ◽

Phase Transformation Kinetics ◽

Pzt Films

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Influence of nanoparticle seeding on the phase formation kinetics of sol-gel-derived Sr0.7Bi2.4Ta2O9 thin films

Journal of Materials Research ◽

10.1557/jmr.2003.0049 ◽

2003 ◽

Vol 18 (2) ◽

pp. 387-395 ◽

Cited By ~ 21

Author(s):

Yun-Mo Sung ◽

Gopinathan M. Anilkumar ◽

Seung-Joon Hwang

Keyword(s):

Thin Films ◽

Phase Transformation ◽

Phase Formation ◽

Volume Fraction ◽

Sol Gel ◽

Fluorite Phase ◽

Microstructural Development ◽

Aurivillius Phase ◽

Si Substrates ◽

Formation Kinetics

Sr0.7Bi2.4Ta2O9 (SBT) thin films were deposited on unseeded and SBT nanoparticle (approximately 60–80 nm) seeded Pt/Ti/SiO2Si substrates via sol-gel and spin-coating techniques. The SBT thin films were heated at 600 °C for 1 h to form the fluorite phase, and these fluorite films were further heated at 730–760 °C for fluorite-to-Aurivillius phase transformation. The volume fractions of Aurivillius phase formation obtained through quantitative x-ray diffraction analyses showed highly enhanced kinetics in seeded SBT thin films. Johnson–Mehl–Avrami isothermal kinetic analyses were performed for the characterization of Aurivillius phase formation in unseeded and seeded SBT thin films using the volume fraction values. The Avrami exponents were determined as approximately 1.4 and approximately 0.9 for unseeded and seeded SBT films, respectively, which reveals different nucleation modes. By using Arrhenius-type plots, the activation energy values for the phase transformation of unseeded and seeded SBT thin films were determined to be approximately 264 and approximately 168 kJ/mol, respectively. This gives a key reason for the enhanced kinetics in seeded films. Microstructural analyses on unseeded SBT thin films showed formation of randomly oriented needlelike crystals, while those on seeded ones showed formation of domains comprising directionally grown wormlike crystals. On the basis of the phase formation kinetics and microstructural development, a model representing different nucleation and crystal growth mechanisms for the unseeded and seeded SBT thin films was proposed.

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