Phase stability of epitaxial KTa_xNb_1−xO₃ thin films deposited by metalorganic chemical vapor deposition

Abstract: The phase stability of epitaxial KTaxNb1−xO3 (0 ≤ x ≤ 1) thin films, with compositions over the entire solid solution range, was investigated. KTaxNb1−xO3 thin films were deposited on (100) MgAl2O4 substrates by metalorganic chemical vapor deposition. Films with compositions x ≤ 0.30 were orthorhombic, as determined by x-ray diffraction. Dielectric measurements at room temperature indicated the presence of morphotropic phase boundaries at x = 0.30 and at x = 0.74. Temperature-dependent measurements of the diel… Show more

“…These temperatures of phase transitions are close to data reported for KNbO 3 single-crystals [41,130]. Nevertheless, the transition temperatures are slightly lower for our film than for some samples reported by other groups [87,93,131,132]. The difference can be due to strain or, more likely, to grains size.…”

“…Various methods were also carried out for KTN thin films deposition, like liquid-phase epitaxy [85], MOCVD [86,87], sol-gel methods [51][52][53]88] (including polymeric precursors [54,55]), radio frequency sputtering [56,89] and PLD [39,40,46,[90][91][92][93][94][95]. Most of these studies highlighted the difficulty to preserve the relationship between metal atoms according to the pseudo-binary diagram established for the synthesis of KTN single-crystals [45,85,96] or ceramics [16,44,97].…”

Epitaxially grown ferroelectric thin films for agile devices

“…These temperatures of phase transitions are close to data reported for KNbO 3 single-crystals [41,130]. Nevertheless, the transition temperatures are slightly lower for our film than for some samples reported by other groups [87,93,131,132]. The difference can be due to strain or, more likely, to grains size.…”

“…Various methods were also carried out for KTN thin films deposition, like liquid-phase epitaxy [85], MOCVD [86,87], sol-gel methods [51][52][53]88] (including polymeric precursors [54,55]), radio frequency sputtering [56,89] and PLD [39,40,46,[90][91][92][93][94][95]. Most of these studies highlighted the difficulty to preserve the relationship between metal atoms according to the pseudo-binary diagram established for the synthesis of KTN single-crystals [45,85,96] or ceramics [16,44,97].…”

Epitaxially grown ferroelectric thin films for agile devices

“…The growth of barium-doped KT was already reported from our laboratory [10,11], but to our knowledge there are no reports on the investigations on the growth of bulk homogeneously-doped KT:Ba crystals. The investigations on the growth of KTN and KNTN thin films have been reported by several authors [12][13][14][15][16][17][18]. For the practical realization of optical devices such as waveguides and microresonators wide area (5 Â 5 mm 2 ) with flat as grown epilayers of uniform composition are needed.…”

Growth and characterization of barium-doped potassium tantalate crystals

“…3 Alloying with niobium, the cubic phase of KTa 1−x Nb x O 3 ͑KTN͒ is a good candidate material for electro-optic applications, such as band filters, light modulators, and IR detectors, due to its large quadratic electro-optic coefficient and photorefractive effect. 4 Because bulk single crystals of KTaO 3 and KTN are difficult and expensive to grow, attention has been focused on the growth of epitaxial films.…”

“…2,4,5 These processes require temperatures in excess of 650°C either during deposition or for postdeposition calcination. Alternatively, epitaxial KTaO 3 films can be grown by a low temperature ͑Ͻ200°C͒ solution technique known as hydrothermal epitaxy that utilizes aqueous chemical reactions to form heteroepitaxial thin films.…”

Low-Temperature Epitaxy of KTaO[sub 3] and KNbO[sub 3] Films