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Universal Polymeric-to-Colloidal Transition in Melts of Hairy Nanoparticles.

Publication ,  Journal Article
Parisi, D; Buenning, E; Kalafatakis, N; Gury, L; Benicewicz, BC; Gauthier, M; Cloitre, M; Rubinstein, M; Kumar, SK; Vlassopoulos, D
Published in: ACS nano
October 2021

Two different classes of hairy self-suspended nanoparticles in the melt state, polymer-grafted nanoparticles (GNPs) and star polymers, are shown to display universal dynamic behavior across a broad range of parameter space. Linear viscoelastic measurements on well-characterized silica-poly(methyl acrylate) GNPs with a fixed core radius (Rcore) and grafting density (or number of arms f) but varying arm degree of polymerization (Narm) show two distinctly different regimes of response. The colloidal Regime I with a small Narm (large core volume fraction) is characterized by predominant low-frequency solidlike colloidal plateau and ultraslow relaxation, while the polymeric Regime II with a large Narm (small core volume fractions) has a response dominated by the starlike relaxation of partially interpenetrated arms. The transition between the two regimes is marked by a crossover where both polymeric and colloidal modes are discerned albeit without a distinct colloidal plateau. Similarly, polybutadiene multiarm stars also exhibit the colloidal response of Regime I at very large f and small Narm. The star arm retraction model and a simple scaling model of nanoparticle escape from the cage of neighbors by overcoming a hopping potential barrier due to their elastic deformation quantitatively describe the linear response of the polymeric and colloidal regimes, respectively, in all these cases. The dynamic behavior of hairy nanoparticles of different chemistry and molecular characteristics, investigated here and reported in the literature, can be mapped onto a universal dynamic diagram of f/[Rcore30)1/4] as a function of (Narmν0f)/(Rcore3), where ν0 is the monomeric volume. In this diagram, the two regimes are separated by a line where the hopping potential ΔUhop is equal to the thermal energy, kBT. ΔUhop can be expressed as a function of the overcrowding parameter x (i.e., the ratio of f to the maximum number of unperturbed chains with Narm that can fill the volume occupied by the polymeric corona); hence, this crossing is shown to occur when x = 1. For x > 1, we have colloidal Regime I with an overcrowded volume, stretched arms, and ΔUhop > kBT, while polymeric Regime II is linked to x < 1. This single-material parameter x can provide the needed design principle to tailor the dynamics of this class of soft materials across a wide range of applications from membranes for gas separation to energy storage.

Duke Scholars

Published In

ACS nano

DOI

EISSN

1936-086X

ISSN

1936-0851

Publication Date

October 2021

Volume

15

Issue

10

Start / End Page

16697 / 16708

Related Subject Headings

  • Nanoscience & Nanotechnology
 

Citation

APA
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ICMJE
MLA
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Parisi, D., Buenning, E., Kalafatakis, N., Gury, L., Benicewicz, B. C., Gauthier, M., … Vlassopoulos, D. (2021). Universal Polymeric-to-Colloidal Transition in Melts of Hairy Nanoparticles. ACS Nano, 15(10), 16697–16708. https://doi.org/10.1021/acsnano.1c06672
Parisi, Daniele, Eileen Buenning, Nikolaos Kalafatakis, Leo Gury, Brian C. Benicewicz, Mario Gauthier, Michel Cloitre, Michael Rubinstein, Sanat K. Kumar, and Dimitris Vlassopoulos. “Universal Polymeric-to-Colloidal Transition in Melts of Hairy Nanoparticles.ACS Nano 15, no. 10 (October 2021): 16697–708. https://doi.org/10.1021/acsnano.1c06672.
Parisi D, Buenning E, Kalafatakis N, Gury L, Benicewicz BC, Gauthier M, et al. Universal Polymeric-to-Colloidal Transition in Melts of Hairy Nanoparticles. ACS nano. 2021 Oct;15(10):16697–708.
Parisi, Daniele, et al. “Universal Polymeric-to-Colloidal Transition in Melts of Hairy Nanoparticles.ACS Nano, vol. 15, no. 10, Oct. 2021, pp. 16697–708. Epmc, doi:10.1021/acsnano.1c06672.
Parisi D, Buenning E, Kalafatakis N, Gury L, Benicewicz BC, Gauthier M, Cloitre M, Rubinstein M, Kumar SK, Vlassopoulos D. Universal Polymeric-to-Colloidal Transition in Melts of Hairy Nanoparticles. ACS nano. 2021 Oct;15(10):16697–16708.
Journal cover image

Published In

ACS nano

DOI

EISSN

1936-086X

ISSN

1936-0851

Publication Date

October 2021

Volume

15

Issue

10

Start / End Page

16697 / 16708

Related Subject Headings

  • Nanoscience & Nanotechnology