Crystallization of TiO2 Polymorphs from RF-Sputtered, Amorphous Thin-Film Precursors

O. Agirseven; D. T. Rivella; J. E.S. Haggerty; P. O. Berry; K. Diffendaffer; A. Patterson; J. Kreb; J. S. Mangum; B. P. Gorman; J. D. Perkins; B. R. Chen; L. T. Schelhas; J. Tate

doi:10.1063/1.5140368

Crystallization of TiO2 Polymorphs from RF-Sputtered, Amorphous Thin-Film Precursors

O. Agirseven
, D. T. Rivella
, J. E.S. Haggerty
, P. O. Berry
, K. Diffendaffer
, A. Patterson
, J. Kreb
, J. S. Mangum
, B. P. Gorman
, J. D. Perkins
, B. R. Chen
, L. T. Schelhas
, J. Tate

Oregon State University
Colorado School of Mines
National Renewable Energy Laboratory
National Institute of Standards and Technology
SLAC National Accelerator Laboratory

Research output: Contribution to journal › Article › peer-review

15 Scopus Citations

Abstract

Crystalline TiO₂ films of anatase, brookite, and rutile are reproducibly made from amorphous precursors deposited by RF magnetron sputtering, producing large-area, single phase films of uniform thickness. Sputtered amorphous TiO₂ precursor thin films follow the general behavior observed for amorphous precursor thin films generated by pulsed laser deposition, namely, that oxygen deficiency is necessary for the formation of brookite and rutile. We quantify the oxygen deficiency and correlate it with the long wavelength optical absorption. We find that the precursor deposition rate is also a contributing factor to phase selection and that brookite and rutile form from films deposited more rapidly and anatase from films deposited more slowly. Sputtered and pulsed laser deposited amorphous precursor films prepared with similar oxygen deficiency and similar thickness result in the same final state after annealing, but the rate for sputtered precursors is slower.

Original language	American English
Article number	025109
Number of pages	7
Journal	AIP Advances
Volume	10
Issue number	2
DOIs	https://doi.org/10.1063/1.5140368 https://doi.org/10.1063/1.5140368
State	Published - 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020 Author(s).

NLR Publication Number

NREL/JA-5K00-76206

Keywords

crystallization
magnetron sputtering
optical absorption
optical imaging
polymorphism
pulsed laser deposition
raman spectroscopy
sputter deposition
thin films
x-ray diffraction

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Agirseven, O., Rivella, D. T., Haggerty, J. E. S., Berry, P. O., Diffendaffer, K., Patterson, A., Kreb, J., Mangum, J. S., Gorman, B. P., Perkins, J. D., Chen, B. R., Schelhas, L. T., & Tate, J. (2020). Crystallization of TiO2 Polymorphs from RF-Sputtered, Amorphous Thin-Film Precursors. AIP Advances, 10(2), Article 025109. https://doi.org/10.1063/1.5140368, https://doi.org/10.1063/1.5140368

@article{e7f42aaa424743b8966d69a7775496c8,

title = "Crystallization of TiO2 Polymorphs from RF-Sputtered, Amorphous Thin-Film Precursors",

abstract = "Crystalline TiO2 films of anatase, brookite, and rutile are reproducibly made from amorphous precursors deposited by RF magnetron sputtering, producing large-area, single phase films of uniform thickness. Sputtered amorphous TiO2 precursor thin films follow the general behavior observed for amorphous precursor thin films generated by pulsed laser deposition, namely, that oxygen deficiency is necessary for the formation of brookite and rutile. We quantify the oxygen deficiency and correlate it with the long wavelength optical absorption. We find that the precursor deposition rate is also a contributing factor to phase selection and that brookite and rutile form from films deposited more rapidly and anatase from films deposited more slowly. Sputtered and pulsed laser deposited amorphous precursor films prepared with similar oxygen deficiency and similar thickness result in the same final state after annealing, but the rate for sputtered precursors is slower.",

keywords = "crystallization, magnetron sputtering, optical absorption, optical imaging, polymorphism, pulsed laser deposition, raman spectroscopy, sputter deposition, thin films, x-ray diffraction",

author = "O. Agirseven and Rivella, \{D. T.\} and Haggerty, \{J. E.S.\} and Berry, \{P. O.\} and K. Diffendaffer and A. Patterson and J. Kreb and Mangum, \{J. S.\} and Gorman, \{B. P.\} and Perkins, \{J. D.\} and Chen, \{B. R.\} and Schelhas, \{L. T.\} and J. Tate",

note = "Publisher Copyright: {\textcopyright} 2020 Author(s).",

year = "2020",

doi = "10.1063/1.5140368",

language = "American English",

volume = "10",

journal = "AIP Advances",

issn = "2158-3226",

publisher = "American Institute of Physics",

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TY - JOUR

T1 - Crystallization of TiO2 Polymorphs from RF-Sputtered, Amorphous Thin-Film Precursors

AU - Agirseven, O.

AU - Rivella, D. T.

AU - Haggerty, J. E.S.

AU - Berry, P. O.

AU - Diffendaffer, K.

AU - Patterson, A.

AU - Kreb, J.

AU - Mangum, J. S.

AU - Gorman, B. P.

AU - Perkins, J. D.

AU - Chen, B. R.

AU - Schelhas, L. T.

AU - Tate, J.

PY - 2020

Y1 - 2020

N2 - Crystalline TiO2 films of anatase, brookite, and rutile are reproducibly made from amorphous precursors deposited by RF magnetron sputtering, producing large-area, single phase films of uniform thickness. Sputtered amorphous TiO2 precursor thin films follow the general behavior observed for amorphous precursor thin films generated by pulsed laser deposition, namely, that oxygen deficiency is necessary for the formation of brookite and rutile. We quantify the oxygen deficiency and correlate it with the long wavelength optical absorption. We find that the precursor deposition rate is also a contributing factor to phase selection and that brookite and rutile form from films deposited more rapidly and anatase from films deposited more slowly. Sputtered and pulsed laser deposited amorphous precursor films prepared with similar oxygen deficiency and similar thickness result in the same final state after annealing, but the rate for sputtered precursors is slower.

AB - Crystalline TiO2 films of anatase, brookite, and rutile are reproducibly made from amorphous precursors deposited by RF magnetron sputtering, producing large-area, single phase films of uniform thickness. Sputtered amorphous TiO2 precursor thin films follow the general behavior observed for amorphous precursor thin films generated by pulsed laser deposition, namely, that oxygen deficiency is necessary for the formation of brookite and rutile. We quantify the oxygen deficiency and correlate it with the long wavelength optical absorption. We find that the precursor deposition rate is also a contributing factor to phase selection and that brookite and rutile form from films deposited more rapidly and anatase from films deposited more slowly. Sputtered and pulsed laser deposited amorphous precursor films prepared with similar oxygen deficiency and similar thickness result in the same final state after annealing, but the rate for sputtered precursors is slower.

KW - crystallization

KW - magnetron sputtering

KW - optical absorption

KW - optical imaging

KW - polymorphism

KW - pulsed laser deposition

KW - raman spectroscopy

KW - sputter deposition

KW - thin films

KW - x-ray diffraction

UR - https://www.scopus.com/pages/publications/85079496693

U2 - 10.1063/1.5140368

DO - 10.1063/1.5140368

M3 - Article

AN - SCOPUS:85079496693

SN - 2158-3226

VL - 10

JO - AIP Advances

JF - AIP Advances

IS - 2

M1 - 025109

ER -

Crystallization of TiO2 Polymorphs from RF-Sputtered, Amorphous Thin-Film Precursors

Abstract

Bibliographical note

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Keywords

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