This title appears in the Scientific Report :
2015
Please use the identifier:
http://hdl.handle.net/2128/9470 in citations.
Please use the identifier: http://dx.doi.org/10.1177/1045389X15590272 in citations.
Electric field-induced criticality and frequency responsive dynamics of charged rods
Electric field-induced criticality and frequency responsive dynamics of charged rods
We use the suspensions of charged fibrous virus (fd) as a model system for charged colloidal rods, where thick electric double layers are present. In particular, the system has shown the electric field–induced phase/state transitions under a low electric field strength. We briefly present the freque...
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Personal Name(s): | Kang, K. (Corresponding author) |
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Dhont, J. K. | |
Contributing Institute: |
Weiche Materie; ICS-3 |
Published in: | Journal of intelligent material systems and structures, 26 (2015) 14, S. 1945 - 1950 |
Imprint: |
Thousand Oaks, Calif.
Sage
2015
|
DOI: |
10.1177/1045389X15590272 |
Document Type: |
Journal Article |
Research Program: |
Functional Macromolecules and Complexes |
Link: |
OpenAccess OpenAccess |
Publikationsportal JuSER |
Please use the identifier: http://dx.doi.org/10.1177/1045389X15590272 in citations.
We use the suspensions of charged fibrous virus (fd) as a model system for charged colloidal rods, where thick electric double layers are present. In particular, the system has shown the electric field–induced phase/state transitions under a low electric field strength. We briefly present the frequency responsive dynamics in the phase/state diagram and field-induced criticality in the dynamical states by approaching the field-induced critical point. In addition, the possible mechanism of low-frequency responsive dynamical states is briefly explained by the local charge redistribution of dissociation and association of condensed ions on the charged rods. The found phases/states are unique in the bulk phase diagram, away from the electrode polarization that is dominant near to the surface of the indium tin oxide glasses, in the sense that they are observed independent from the applied field amplitude and frequency. |