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  • Enhanced Electroresponse of Alkaline Earth Metal-Doped Silica/Titania Spheres by Synergetic Effect of Dispersion Stability and Dielectric Property.

Enhanced Electroresponse of Alkaline Earth Metal-Doped Silica/Titania Spheres by Synergetic Effect of Dispersion Stability and Dielectric Property.

ACS applied materials & interfaces (2015-08-13)
Chang-Min Yoon, Seungae Lee, Oug Jae Cheong, Jyongsik Jang
ABSTRACT

A series of alkaline earth metal-doped hollow SiO2/TiO2 spheres (EM-HST) are prepared as electrorheological (ER) materials via sonication-mediated etching method with various alkaline earth metal hydroxides as the etchant. The EM-HST spheres are assessed to determine how their hollow interior and metal-doping affects the ER activity. Both the dispersion stability and the dielectric properties of these materials are greatly enhanced by the proposed one-step etching method, which results in significant enhancement of ER activity. These improvements are attributed to increased particle mobility and interfacial polarization originating from the hollow nature of the EM-HST spheres and the effects of EM metal-doping. In particular, Ca-HST-based ER fluid exhibits ER performance which is 7.1-fold and 3.1-fold higher than those of nonhollow core/shell silica/titania (CS/ST) and undoped hollow silica/titania (HST)-based ER fluids, respectively. This study develops a versatile and simple approach to enhancing ER activity through synergetic effects arising from the combination of dispersion stability and the unique dielectric properties of hollow EM-HST spheres. In addition, the multigram scale production described in this experiment can be an excellent advantage for practical and commercial ER application.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Titanium(IV) isopropoxide, 99.999% trace metals basis
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Calcium hydroxide, 99.995% trace metals basis
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Titanium(IV) isopropoxide, ≥97.0%
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Titanium(IV) isopropoxide, 97%
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Barium hydroxide solution, 0.3 N
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Titanium(IV) isopropoxide, packaged for use in deposition systems
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Barium hydroxide, technical grade, ~95%
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Strontium hydroxide, 94%