Evolution of the Polymorph Selectivity of Titania Formation under Acidic and Low-Temperature Conditions | Zendy

Gunnar Símonarson | Zendy; Sanna Sommer | Zendy; A. Lotsari | Zendy; Björn Elgh | Zendy; Bo B. Iversen | Zendy; Anders E. C. Palmqvist | Zendy

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Evolution of the Polymorph Selectivity of Titania Formation under Acidic and Low-Temperature Conditions

Author(s) -

Gunnar Símonarson,

Sanna Sommer,

A. Lotsari,

Björn Elgh,

Bo B. Iversen,

Anders E. C. Palmqvist

Publication year - 2019

Publication title -

acs omega

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.779

H-Index - 40

ISSN - 2470-1343

DOI - 10.1021/acsomega.8b03440

Subject(s) - brookite , selectivity , rutile , anatase , titanium dioxide , chemistry , inorganic chemistry , titanium , phase (matter) , materials science , catalysis , organic chemistry , photocatalysis , metallurgy

Evolution of the polymorph selectivity of titanium dioxide was studied under acidic and low-temperature synthesis conditions. Short synthesis times resulted in high relative amounts of the rutile phase, and long synthesis times resulted in high relative amounts of the brookite and anatase phases. The effect of titania precursor concentration was investigated and found to have a large impact on the polymorph selectivity. As the reaction proceeds with time, changes in the chemical environment, caused in particular by the gradually decreasing titania precursor concentration, are therefore likely the cause of the change in polymorph selectivity observed.

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