The rapid formation of La(OH)3 from La2O3 powders on exposureto water vapor

Peter Fleming; Richard A. Farrell; Justin D. Holmes; Michael A. Morris

doi:10.1111/j.1551-2916.2009.03564.x

The rapid formation of La(OH)₃ from La₂O₃ powders on exposureto water vapor

Peter Fleming
, Richard A. Farrell
, Justin D. Holmes
, Michael A. Morris

School of Chemistry

University College Cork

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

Abstract

The reactivity of various lanthana powders in air was studied. The materials rapidly hydroxylate to form a stable hydroxide, La(OH)₃, at room temperature. Smaller amounts of an oxycarbonate species (La ₂O₂CO₃) are also observed following air exposure. This oxycarbonate phase is stable to hydroxylation. All oxide materials synthesized here show rapid reactions so that 24 h of exposure to atmosphere is generally sufficient to cause complete hydroxylation at room temperature. The rate of reaction was related to the crystallite size as determined by XRD. The reaction was found to follow a two-stage kinetic process, a relatively slow surface reaction followed by a rapid bulk reaction. The relevance of the reactivity of these powders is discussed.

Original language	English
Pages (from-to)	1187-1194
Number of pages	8
Journal	Journal of the American Ceramic Society
Volume	93
Issue number	4
DOIs	https://doi.org/10.1111/j.1551-2916.2009.03564.x
Publication status	Published - Apr 2010

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10.1111/j.1551-2916.2009.03564.x

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title = "The rapid formation of La(OH)3 from La2O3 powders on exposureto water vapor",

abstract = "The reactivity of various lanthana powders in air was studied. The materials rapidly hydroxylate to form a stable hydroxide, La(OH)3, at room temperature. Smaller amounts of an oxycarbonate species (La 2O2CO3) are also observed following air exposure. This oxycarbonate phase is stable to hydroxylation. All oxide materials synthesized here show rapid reactions so that 24 h of exposure to atmosphere is generally sufficient to cause complete hydroxylation at room temperature. The rate of reaction was related to the crystallite size as determined by XRD. The reaction was found to follow a two-stage kinetic process, a relatively slow surface reaction followed by a rapid bulk reaction. The relevance of the reactivity of these powders is discussed.",

author = "Peter Fleming and Farrell, \{Richard A.\} and Holmes, \{Justin D.\} and Morris, \{Michael A.\}",

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AU - Fleming, Peter

AU - Farrell, Richard A.

AU - Holmes, Justin D.

AU - Morris, Michael A.

PY - 2010/4

Y1 - 2010/4

N2 - The reactivity of various lanthana powders in air was studied. The materials rapidly hydroxylate to form a stable hydroxide, La(OH)3, at room temperature. Smaller amounts of an oxycarbonate species (La 2O2CO3) are also observed following air exposure. This oxycarbonate phase is stable to hydroxylation. All oxide materials synthesized here show rapid reactions so that 24 h of exposure to atmosphere is generally sufficient to cause complete hydroxylation at room temperature. The rate of reaction was related to the crystallite size as determined by XRD. The reaction was found to follow a two-stage kinetic process, a relatively slow surface reaction followed by a rapid bulk reaction. The relevance of the reactivity of these powders is discussed.

AB - The reactivity of various lanthana powders in air was studied. The materials rapidly hydroxylate to form a stable hydroxide, La(OH)3, at room temperature. Smaller amounts of an oxycarbonate species (La 2O2CO3) are also observed following air exposure. This oxycarbonate phase is stable to hydroxylation. All oxide materials synthesized here show rapid reactions so that 24 h of exposure to atmosphere is generally sufficient to cause complete hydroxylation at room temperature. The rate of reaction was related to the crystallite size as determined by XRD. The reaction was found to follow a two-stage kinetic process, a relatively slow surface reaction followed by a rapid bulk reaction. The relevance of the reactivity of these powders is discussed.

UR - https://www.scopus.com/pages/publications/77950475737

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DO - 10.1111/j.1551-2916.2009.03564.x

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SN - 0002-7820

VL - 93

SP - 1187

EP - 1194

JO - Journal of the American Ceramic Society

JF - Journal of the American Ceramic Society

IS - 4

ER -

The rapid formation of La(OH)₃ from La₂O₃ powders on exposureto water vapor

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