XPCS Microrheology and Rheology of Sterically Stabilized Nanoparticle Dispersions in Aprotic Solvents

Weiping Liu, Bingqian Zheng, Xuechen Yin, Xiaoxi Yu, Yugang Zhang, Lutz Wiegart, Andrei Fluerasu, Beth L. Armstrong, Gabriel M. Veith, Surita R. Bhatia

Research output: Contribution to journalArticlepeer-review

9 Scopus citations

Abstract

X-ray photon correlation spectroscopy (XPCS) microrheology and conventional bulk rheology were performed on silica nanoparticle dispersions associated with battery electrolyte applications to probe the properties of these specific complex materials and to explore the utility of XPCS microrheology in characterizing nanoparticle dispersions. Sterically stabilized shear-thickening electrolytes were synthesized by grafting poly(methyl methacrylate) chains onto silica nanoparticles. Coated silica dispersions containing 5-30 wt % nanoparticles dispersed in propylene carbonate were studied. In general, both XPCS microrheology and conventional rheology showed that coated silica dispersions were more viscous at higher concentrations, as expected. The complex viscosity of coated silica dispersions showed shear-thinning behavior over the frequency range probed by XPCS measurements. However, measurements using conventional mechanical rheometry yielded a shear viscosity with weak shear-thickening behavior for dispersions with the highest concentration of 30% particles. Our results indicate that there is a critical concentration needed for shear-thickening behavior, as well as appropriate particle size and surface polymer chain length, for this class of nanoparticle-based electrolytes. The results of this study can provide insights for comparing XPCS microrheology and bulk rheology for related complex fluids and whether XPCS microrheology can capture expected macroscopic rheological properties by probing small-scale particle dynamics.

Original languageEnglish
Pages (from-to)14267-14274
Number of pages8
JournalACS Applied Materials and Interfaces
Volume13
Issue number12
DOIs
StatePublished - Mar 31 2021

Keywords

  • PMMA
  • XPCS
  • dispersions
  • microrheology
  • silica

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