Electrorheological effects of cerium-doped TiO2

Jian Bo Yin; Xiao Peng Zhao

doi:10.1088/0256-307X/18/8/350

Electrorheological effects of cerium-doped TiO₂

Jian Bo Yin, Xiao Peng Zhao

School of Physical Science and Technology

CAS - International Center for Material Physics

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

28 Scopus citations

Abstract

It is found that the doping of cerium ion into anatase TiO₂ can improve the electrorheological (ER) effects of TiO₂ and broaden the operational temperature range. Especially, the substitution of 7-11 mol% of the cerium dopant for Ti can obtain a relatively high shear stress, τ = 7.4 kPa (at 4 kV/mm), which is ten times larger than that of pure TiO₂ ER fluid. Also, the typical Ce-doped TiO₂ ER fluid shows the highest shear stress at 80°C, but 40°C for pure TiO₂ ER fluid. The dielectric loss and dielectric constant at a low frequency of TiO₂ is improved by the doping of cerium, and the temperature dependence of the dielectric properties shows an obvious difference between pure and doped TiO₂ ER fluids. These can well explain the ER behaviour of doped TiO₂. Furthermore, the change of rheological and dielectric properties is discussed on the basis of the lattice distortion and defects in TiO₂ arising from the doping of cerium.

Original language	English
Pages (from-to)	1144-1146
Number of pages	3
Journal	Chinese Physics Letters
Volume	18
Issue number	8
DOIs	https://doi.org/10.1088/0256-307X/18/8/350
State	Published - Aug 2001

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title = "Electrorheological effects of cerium-doped TiO2",

abstract = "It is found that the doping of cerium ion into anatase TiO2 can improve the electrorheological (ER) effects of TiO2 and broaden the operational temperature range. Especially, the substitution of 7-11 mol% of the cerium dopant for Ti can obtain a relatively high shear stress, τ = 7.4 kPa (at 4 kV/mm), which is ten times larger than that of pure TiO2 ER fluid. Also, the typical Ce-doped TiO2 ER fluid shows the highest shear stress at 80°C, but 40°C for pure TiO2 ER fluid. The dielectric loss and dielectric constant at a low frequency of TiO2 is improved by the doping of cerium, and the temperature dependence of the dielectric properties shows an obvious difference between pure and doped TiO2 ER fluids. These can well explain the ER behaviour of doped TiO2. Furthermore, the change of rheological and dielectric properties is discussed on the basis of the lattice distortion and defects in TiO2 arising from the doping of cerium.",

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AB - It is found that the doping of cerium ion into anatase TiO2 can improve the electrorheological (ER) effects of TiO2 and broaden the operational temperature range. Especially, the substitution of 7-11 mol% of the cerium dopant for Ti can obtain a relatively high shear stress, τ = 7.4 kPa (at 4 kV/mm), which is ten times larger than that of pure TiO2 ER fluid. Also, the typical Ce-doped TiO2 ER fluid shows the highest shear stress at 80°C, but 40°C for pure TiO2 ER fluid. The dielectric loss and dielectric constant at a low frequency of TiO2 is improved by the doping of cerium, and the temperature dependence of the dielectric properties shows an obvious difference between pure and doped TiO2 ER fluids. These can well explain the ER behaviour of doped TiO2. Furthermore, the change of rheological and dielectric properties is discussed on the basis of the lattice distortion and defects in TiO2 arising from the doping of cerium.

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Electrorheological effects of cerium-doped TiO₂

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