Copper and iron precipitates in thermochemically reduced yttria-stabilized zirconia crystals

B. Savoini; C. Ballesteros; J. E. Muñoz Santiuste; R. González; A. I. Popov; Y. Chen

doi:10.1080/09500830110057254

Copper and iron precipitates in thermochemically reduced yttria-stabilized zirconia crystals

B. Savoini^*
, C. Ballesteros
, J. E. Muñoz Santiuste
, R. González
, A. I. Popov
, Y. Chen

^*Corresponding author for this work

Universidad Carlos III de Madrid

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

4 Citations (Scopus)

Abstract

Thermochemical reduction (TCR) at 21-73 K has been performed on nominally pure yttria-stabilized zirconia crystals. After TCR the crystals become opaque owing to a very intense optical absorption band centred at 2.64 eV. Analytical transmission electron microscopy studies have shown that both copper and iron impurity precipitates are present. Colloids with different sizes and shapes are inhomogeneously distributed and both large and small precipitates are observed. Most of the large precipitates are elongated and irregular shaped, with an average dimension of 130 nm × 30 nm; they all contain copper. Exclusively copper and exclusively iron contents can be found in different parts of the same precipitate, an observation that is compatible with the fact that copper and iron are inmiscible. Smaller precipitates, with an average size of about 5 nm, are usually iron rich or copper rich.

Original language	English
Pages (from-to)	555-561
Number of pages	7
Journal	Philosophical Magazine Letters
Volume	81
Issue number	8
DOIs	https://doi.org/10.1080/09500830110057254
Publication status	Published - Aug 2001
Externally published	Yes

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title = "Copper and iron precipitates in thermochemically reduced yttria-stabilized zirconia crystals",

abstract = "Thermochemical reduction (TCR) at 21-73 K has been performed on nominally pure yttria-stabilized zirconia crystals. After TCR the crystals become opaque owing to a very intense optical absorption band centred at 2.64 eV. Analytical transmission electron microscopy studies have shown that both copper and iron impurity precipitates are present. Colloids with different sizes and shapes are inhomogeneously distributed and both large and small precipitates are observed. Most of the large precipitates are elongated and irregular shaped, with an average dimension of 130 nm × 30 nm; they all contain copper. Exclusively copper and exclusively iron contents can be found in different parts of the same precipitate, an observation that is compatible with the fact that copper and iron are inmiscible. Smaller precipitates, with an average size of about 5 nm, are usually iron rich or copper rich.",

author = "B. Savoini and C. Ballesteros and \{Mu{\~n}oz Santiuste\}, \{J. E.\} and R. Gonz{\'a}lez and Popov, \{A. I.\} and Y. Chen",

year = "2001",

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doi = "10.1080/09500830110057254",

language = "English",

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pages = "555--561",

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TY - JOUR

T1 - Copper and iron precipitates in thermochemically reduced yttria-stabilized zirconia crystals

AU - Savoini, B.

AU - Ballesteros, C.

AU - Muñoz Santiuste, J. E.

AU - González, R.

AU - Popov, A. I.

AU - Chen, Y.

PY - 2001/8

Y1 - 2001/8

N2 - Thermochemical reduction (TCR) at 21-73 K has been performed on nominally pure yttria-stabilized zirconia crystals. After TCR the crystals become opaque owing to a very intense optical absorption band centred at 2.64 eV. Analytical transmission electron microscopy studies have shown that both copper and iron impurity precipitates are present. Colloids with different sizes and shapes are inhomogeneously distributed and both large and small precipitates are observed. Most of the large precipitates are elongated and irregular shaped, with an average dimension of 130 nm × 30 nm; they all contain copper. Exclusively copper and exclusively iron contents can be found in different parts of the same precipitate, an observation that is compatible with the fact that copper and iron are inmiscible. Smaller precipitates, with an average size of about 5 nm, are usually iron rich or copper rich.

AB - Thermochemical reduction (TCR) at 21-73 K has been performed on nominally pure yttria-stabilized zirconia crystals. After TCR the crystals become opaque owing to a very intense optical absorption band centred at 2.64 eV. Analytical transmission electron microscopy studies have shown that both copper and iron impurity precipitates are present. Colloids with different sizes and shapes are inhomogeneously distributed and both large and small precipitates are observed. Most of the large precipitates are elongated and irregular shaped, with an average dimension of 130 nm × 30 nm; they all contain copper. Exclusively copper and exclusively iron contents can be found in different parts of the same precipitate, an observation that is compatible with the fact that copper and iron are inmiscible. Smaller precipitates, with an average size of about 5 nm, are usually iron rich or copper rich.

UR - https://www.scopus.com/pages/publications/0035436266

U2 - 10.1080/09500830110057254

DO - 10.1080/09500830110057254

M3 - Article

AN - SCOPUS:0035436266

SN - 0950-0839

VL - 81

SP - 555

EP - 561

JO - Philosophical Magazine Letters

JF - Philosophical Magazine Letters

IS - 8

ER -

Copper and iron precipitates in thermochemically reduced yttria-stabilized zirconia crystals

Abstract

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