Electrorheology of polyindole

Polyindole particles were prepared by the oxidative polymerization, where ammonium peroxydisulfate was used as an oxidant at several mole ratios to indole. Prepared spherical micrometre-sized polyindole particles were further used as a dispersed phase in silicone-oil electrorheological (ER) fluids a...

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Bibliographic Details
Published inPolymer (Guilford) Vol. 217; p. 123448
Main Authors Plachý, Tomáš, Žitka, Jan, Mrlík, Miroslav, Bažant, Pavel, Kadlečková, Markéta, Trchová, Miroslava, Stejskal, Jaroslav
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 05.03.2021
Elsevier BV
Subjects
Ammonium
Dielectric properties
Electric fields
Electrical properties
Electrorheological fluids
Electrorheology
Indoles
Light microscopy
Morphology
Optical microscopy
Oxidants
Oxidizing agents
Polyindole
Rheological properties
Silicones
Solid phases
Yield stress
Electrorheology
Dielectric properties
Polyindole
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Summary:Polyindole particles were prepared by the oxidative polymerization, where ammonium peroxydisulfate was used as an oxidant at several mole ratios to indole. Prepared spherical micrometre-sized polyindole particles were further used as a dispersed phase in silicone-oil electrorheological (ER) fluids and their rheological behaviour was investigated in the presence and in the absence of an electric field. While different oxidant-to-indole mole ratios did not affect the size and morphology of the particles, their electric and dielectric properties were significantly changed. The highest ER effect was observed for the ER fluid based on the particles with low oxidant-to-indole mole ratio (1:1). Such system exhibited yield stress around 100 Pa at 10 wt% concentration of solid phase. Chain-like structures created upon an application of an electric field were further investigated using an optical microscopy, where significant disparities were found according to electric and dielectric properties of the particles. These findings clearly show that varying mole ratio between the indole and oxidant provides systems with tuneable ER effect. [Display omitted] •Polynidole particles were prepared using acetic acid and ammonium persulfate at different oxidant-to-indole mole ratios.•The sample prepared at the mole ratio [APS]/[Indole] = 1has the shortest response time to applied electric field.•A dependence of created chain-like structures on conductivity and dielectric properties was investigated.
ISSN:0032-3861
1873-2291
DOI:10.1016/j.polymer.2021.123448