Vacancy modeling in lead titanate and lead zirconate titanate

Kevin Tolman; Rick Ubic; Meagan Papac; Hans Kungl

doi:10.1002/9781118995433.ch21

Vacancy modeling in lead titanate and lead zirconate titanate

Kevin Tolman, Rick Ubic, Meagan Papac, Hans Kungl

Micron School of Materials Science and Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Precise prediction of lattice constants is critical for various fields including lattice matching for heteroepitaxy. The exact nature of A-site vacancies in lead titanate, lead zirconate titanate and perovskites generally remains somewhat unclear. In this study, it has been shown experimentally via Le Bail refinements of x-ray diffraction data that such vacancies in leadbased perovskites have an effective size which is a function of their concentration. In the case of lead titanate perovskites, the effective size increases with concentration. This effect has been modeled mathematically with great precision (R² = 0.99995); however, A-site vacancies in lead zirconate titanate perovskites have an effective size which decreases as their concentration increases. This effect has also been modeled mathematically (R² = 0.99993). A simultaneous decrease in the effective size of oxygen ions, ostensibly due to the slight decrease in their coordination, was also observed and quantified in both systems. When both effects are considered, cell volume can be predicted from stoichiometry and published ionic radii data alone to within ∼0.2% accuracy for Pb_1-3xLa_2x□_x(Ti_1-yZr_y)O₃ x≤ 0.15, y≈ 0.6 and < 2% all the way to x = 1/3, y = 0. The model may eventually provide a template for substrate engineering and facilitate property tailoring (magnetic, dielectric, and other) based on improved structure predictions.

Original language	English
Title of host publication	Processing and Properties of Advanced Ceramics and Composites VI
Editors	J. P. Singh, J. P. Singh, Narottam P. Bansal, Narottam P. Bansal, Amar S. Bhalla, Amar S. Bhalla, Morsi M. Mahmoud, Morsi M. Mahmoud, Navin Jose Manjooran, Navin Jose Manjooran, Gurpreet Singh, Gurpreet Singh, Jacques Lamon, Jacques Lamon, Sung R. Choi, Sung R. Choi, Gary Pickrell, Gary Pickrell, Kathy Lu, Kathy Lu, Geoff Brennecka, Geoff Brennecka, Takashi Goto, Takashi Goto
Pages	215-221
Number of pages	7
ISBN (Electronic)	9781118995495, 9781118995495
DOIs	https://doi.org/10.1002/9781118995433.ch21
State	Published - 2014
Event	Processing and Properties of Advanced Ceramics and Composites VI - Materials Science and Technology 2013 Conference and Exhibition, MS and T 2013 - Montreal, Canada Duration: 27 Oct 2013 → 31 Oct 2013

Publication series

Name	Ceramic Transactions
Volume	249
ISSN (Print)	1042-1122

Conference

Conference	Processing and Properties of Advanced Ceramics and Composites VI - Materials Science and Technology 2013 Conference and Exhibition, MS and T 2013
Country/Territory	Canada
City	Montreal
Period	27/10/13 → 31/10/13

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10.1002/9781118995433.ch21

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Tolman, K., Ubic, R., Papac, M., & Kungl, H. (2014). Vacancy modeling in lead titanate and lead zirconate titanate. In J. P. Singh, J. P. Singh, N. P. Bansal, N. P. Bansal, A. S. Bhalla, A. S. Bhalla, M. M. Mahmoud, M. M. Mahmoud, N. J. Manjooran, N. J. Manjooran, G. Singh, G. Singh, J. Lamon, J. Lamon, S. R. Choi, S. R. Choi, G. Pickrell, G. Pickrell, K. Lu, K. Lu, G. Brennecka, G. Brennecka, T. Goto, ... T. Goto (Eds.), Processing and Properties of Advanced Ceramics and Composites VI (pp. 215-221). (Ceramic Transactions; Vol. 249). https://doi.org/10.1002/9781118995433.ch21

Tolman, Kevin ; Ubic, Rick ; Papac, Meagan et al. / Vacancy modeling in lead titanate and lead zirconate titanate. Processing and Properties of Advanced Ceramics and Composites VI. editor / J. P. Singh ; J. P. Singh ; Narottam P. Bansal ; Narottam P. Bansal ; Amar S. Bhalla ; Amar S. Bhalla ; Morsi M. Mahmoud ; Morsi M. Mahmoud ; Navin Jose Manjooran ; Navin Jose Manjooran ; Gurpreet Singh ; Gurpreet Singh ; Jacques Lamon ; Jacques Lamon ; Sung R. Choi ; Sung R. Choi ; Gary Pickrell ; Gary Pickrell ; Kathy Lu ; Kathy Lu ; Geoff Brennecka ; Geoff Brennecka ; Takashi Goto ; Takashi Goto. 2014. pp. 215-221 (Ceramic Transactions).

@inproceedings{57aaedbcb8a04ddbbb19c70f48557e3a,

title = "Vacancy modeling in lead titanate and lead zirconate titanate",

abstract = "Precise prediction of lattice constants is critical for various fields including lattice matching for heteroepitaxy. The exact nature of A-site vacancies in lead titanate, lead zirconate titanate and perovskites generally remains somewhat unclear. In this study, it has been shown experimentally via Le Bail refinements of x-ray diffraction data that such vacancies in leadbased perovskites have an effective size which is a function of their concentration. In the case of lead titanate perovskites, the effective size increases with concentration. This effect has been modeled mathematically with great precision (R2 = 0.99995); however, A-site vacancies in lead zirconate titanate perovskites have an effective size which decreases as their concentration increases. This effect has also been modeled mathematically (R2 = 0.99993). A simultaneous decrease in the effective size of oxygen ions, ostensibly due to the slight decrease in their coordination, was also observed and quantified in both systems. When both effects are considered, cell volume can be predicted from stoichiometry and published ionic radii data alone to within ∼0.2% accuracy for Pb1-3xLa2x□x(Ti1-yZry)O3 x≤ 0.15, y≈ 0.6 and < 2% all the way to x = 1/3, y = 0. The model may eventually provide a template for substrate engineering and facilitate property tailoring (magnetic, dielectric, and other) based on improved structure predictions.",

author = "Kevin Tolman and Rick Ubic and Meagan Papac and Hans Kungl",

year = "2014",

doi = "10.1002/9781118995433.ch21",

language = "English",

series = "Ceramic Transactions",

pages = "215--221",

editor = "Singh, {J. P.} and Singh, {J. P.} and Bansal, {Narottam P.} and Bansal, {Narottam P.} and Bhalla, {Amar S.} and Bhalla, {Amar S.} and Mahmoud, {Morsi M.} and Mahmoud, {Morsi M.} and Manjooran, {Navin Jose} and Manjooran, {Navin Jose} and Gurpreet Singh and Gurpreet Singh and Jacques Lamon and Jacques Lamon and Choi, {Sung R.} and Choi, {Sung R.} and Gary Pickrell and Gary Pickrell and Kathy Lu and Kathy Lu and Geoff Brennecka and Geoff Brennecka and Takashi Goto and Takashi Goto",

booktitle = "Processing and Properties of Advanced Ceramics and Composites VI",

note = "Processing and Properties of Advanced Ceramics and Composites VI - Materials Science and Technology 2013 Conference and Exhibition, MS and T 2013 ; Conference date: 27-10-2013 Through 31-10-2013",

}

Tolman, K, Ubic, R, Papac, M & Kungl, H 2014, Vacancy modeling in lead titanate and lead zirconate titanate. in JP Singh, JP Singh, NP Bansal, NP Bansal, AS Bhalla, AS Bhalla, MM Mahmoud, MM Mahmoud, NJ Manjooran, NJ Manjooran, G Singh, G Singh, J Lamon, J Lamon, SR Choi, SR Choi, G Pickrell, G Pickrell, K Lu, K Lu, G Brennecka, G Brennecka, T Goto & T Goto (eds), Processing and Properties of Advanced Ceramics and Composites VI. Ceramic Transactions, vol. 249, pp. 215-221, Processing and Properties of Advanced Ceramics and Composites VI - Materials Science and Technology 2013 Conference and Exhibition, MS and T 2013, Montreal, Canada, 27/10/13. https://doi.org/10.1002/9781118995433.ch21

Vacancy modeling in lead titanate and lead zirconate titanate. / Tolman, Kevin; Ubic, Rick; Papac, Meagan et al.
Processing and Properties of Advanced Ceramics and Composites VI. ed. / J. P. Singh; J. P. Singh; Narottam P. Bansal; Narottam P. Bansal; Amar S. Bhalla; Amar S. Bhalla; Morsi M. Mahmoud; Morsi M. Mahmoud; Navin Jose Manjooran; Navin Jose Manjooran; Gurpreet Singh; Gurpreet Singh; Jacques Lamon; Jacques Lamon; Sung R. Choi; Sung R. Choi; Gary Pickrell; Gary Pickrell; Kathy Lu; Kathy Lu; Geoff Brennecka; Geoff Brennecka; Takashi Goto; Takashi Goto. 2014. p. 215-221 (Ceramic Transactions; Vol. 249).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Vacancy modeling in lead titanate and lead zirconate titanate

AU - Tolman, Kevin

AU - Ubic, Rick

AU - Papac, Meagan

AU - Kungl, Hans

PY - 2014

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N2 - Precise prediction of lattice constants is critical for various fields including lattice matching for heteroepitaxy. The exact nature of A-site vacancies in lead titanate, lead zirconate titanate and perovskites generally remains somewhat unclear. In this study, it has been shown experimentally via Le Bail refinements of x-ray diffraction data that such vacancies in leadbased perovskites have an effective size which is a function of their concentration. In the case of lead titanate perovskites, the effective size increases with concentration. This effect has been modeled mathematically with great precision (R2 = 0.99995); however, A-site vacancies in lead zirconate titanate perovskites have an effective size which decreases as their concentration increases. This effect has also been modeled mathematically (R2 = 0.99993). A simultaneous decrease in the effective size of oxygen ions, ostensibly due to the slight decrease in their coordination, was also observed and quantified in both systems. When both effects are considered, cell volume can be predicted from stoichiometry and published ionic radii data alone to within ∼0.2% accuracy for Pb1-3xLa2x□x(Ti1-yZry)O3 x≤ 0.15, y≈ 0.6 and < 2% all the way to x = 1/3, y = 0. The model may eventually provide a template for substrate engineering and facilitate property tailoring (magnetic, dielectric, and other) based on improved structure predictions.

AB - Precise prediction of lattice constants is critical for various fields including lattice matching for heteroepitaxy. The exact nature of A-site vacancies in lead titanate, lead zirconate titanate and perovskites generally remains somewhat unclear. In this study, it has been shown experimentally via Le Bail refinements of x-ray diffraction data that such vacancies in leadbased perovskites have an effective size which is a function of their concentration. In the case of lead titanate perovskites, the effective size increases with concentration. This effect has been modeled mathematically with great precision (R2 = 0.99995); however, A-site vacancies in lead zirconate titanate perovskites have an effective size which decreases as their concentration increases. This effect has also been modeled mathematically (R2 = 0.99993). A simultaneous decrease in the effective size of oxygen ions, ostensibly due to the slight decrease in their coordination, was also observed and quantified in both systems. When both effects are considered, cell volume can be predicted from stoichiometry and published ionic radii data alone to within ∼0.2% accuracy for Pb1-3xLa2x□x(Ti1-yZry)O3 x≤ 0.15, y≈ 0.6 and < 2% all the way to x = 1/3, y = 0. The model may eventually provide a template for substrate engineering and facilitate property tailoring (magnetic, dielectric, and other) based on improved structure predictions.

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Tolman K, Ubic R, Papac M, Kungl H. Vacancy modeling in lead titanate and lead zirconate titanate. In Singh JP, Singh JP, Bansal NP, Bansal NP, Bhalla AS, Bhalla AS, Mahmoud MM, Mahmoud MM, Manjooran NJ, Manjooran NJ, Singh G, Singh G, Lamon J, Lamon J, Choi SR, Choi SR, Pickrell G, Pickrell G, Lu K, Lu K, Brennecka G, Brennecka G, Goto T, Goto T, editors, Processing and Properties of Advanced Ceramics and Composites VI. 2014. p. 215-221. (Ceramic Transactions). doi: 10.1002/9781118995433.ch21

Vacancy modeling in lead titanate and lead zirconate titanate

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