Description
A unique bistable transition has been identified in granular/colloidal gel-composites, resulting from shear-induced phase separation of the gel phase into dense blobs. In energy applications, it is critical to understand how this transition influences electrical performance. Mixing conductive colloids with conductive inclusions, we find the conductivity and elasticity move in concert, both decreasing in the collapsed phase-separated state. Surprisingly, with insulating inclusions these properties can become decoupled, with the conductivity instead increasing despite the collapse of the gel structure.
Data Citation
Larsen, T. (2024). Dataset for "Decoupling elasticity and electrical conductivity of carbon black gels filled with insulating non-Brownian grains" [Data set]. Zenodo. https://doi.org/10.5281/zenodo.11178040
| Date made available | 11 May 2024 |
|---|---|
| Publisher | Zenodo |
Research output
- 1 Article
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Decoupling elasticity and electrical conductivity of carbon-black gels filled with insulating non-Brownian grains
Larsen, T., Christiansen, J. D. C., Royer, J. R., Laidlaw, F. H. J., Poon, W. C. K., Larsen, T. & Andreasen, S. J., 10 Sept 2024, In: Physical Review Applied. 22, 3, p. 1-8 8 p., 034023.Research output: Contribution to journal › Article › peer-review
Open Access
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