Fractional Viscosity Dependence of Reaction Kinetics in Glass-Forming Liquids

Seulki Kwon; Hyun Woo Cho; Jeongmin Kim; Bong June Sung

doi:10.1103/PhysRevLett.119.087801

Fractional Viscosity Dependence of Reaction Kinetics in Glass-Forming Liquids

Seulki Kwon
, Hyun Woo Cho
, Jeongmin Kim
, Bong June Sung

Dept. of Fine Chemistry

Sogang University

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

The diffusion of molecules in complex systems such as glasses and cell cytoplasm is slow, heterogeneous, and sometimes nonergodic. The effects of such intriguing diffusion on the kinetics of chemical and biological reactions remain elusive. In this Letter, we report that the kinetics of the polymer loop formation reaction in a Kob-Andersen (KA) glass forming liquid is influenced significantly by the dynamic heterogeneity. The diffusion coefficient D of a KA liquid deviates from the Stokes-Einstein relation at low temperatures and D shows a fractional dependence on the solvent viscosity ηs, i.e., D∼ηs-ξD with ξD=0.85. The dynamic heterogeneity of a KA liquid affects the rate constant krxn of the loop formation and leads to the identical fractional dependence of krxn on ηs with krxn∼ηs-ξ and ξ=ξD, contrary to reactions in dynamically homogeneous solutions where krxn∼ηs-1.

Original language	English
Article number	087801
Journal	Physical Review Letters
Volume	119
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevLett.119.087801
State	Published - 25 Aug 2017

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title = "Fractional Viscosity Dependence of Reaction Kinetics in Glass-Forming Liquids",

abstract = "The diffusion of molecules in complex systems such as glasses and cell cytoplasm is slow, heterogeneous, and sometimes nonergodic. The effects of such intriguing diffusion on the kinetics of chemical and biological reactions remain elusive. In this Letter, we report that the kinetics of the polymer loop formation reaction in a Kob-Andersen (KA) glass forming liquid is influenced significantly by the dynamic heterogeneity. The diffusion coefficient D of a KA liquid deviates from the Stokes-Einstein relation at low temperatures and D shows a fractional dependence on the solvent viscosity ηs, i.e., D∼ηs-ξD with ξD=0.85. The dynamic heterogeneity of a KA liquid affects the rate constant krxn of the loop formation and leads to the identical fractional dependence of krxn on ηs with krxn∼ηs-ξ and ξ=ξD, contrary to reactions in dynamically homogeneous solutions where krxn∼ηs-1.",

author = "Seulki Kwon and Cho, \{Hyun Woo\} and Jeongmin Kim and Sung, \{Bong June\}",

note = "Publisher Copyright: {\textcopyright} 2017 American Physical Society.",

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doi = "10.1103/PhysRevLett.119.087801",

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AU - Kwon, Seulki

AU - Cho, Hyun Woo

AU - Kim, Jeongmin

AU - Sung, Bong June

PY - 2017/8/25

Y1 - 2017/8/25

N2 - The diffusion of molecules in complex systems such as glasses and cell cytoplasm is slow, heterogeneous, and sometimes nonergodic. The effects of such intriguing diffusion on the kinetics of chemical and biological reactions remain elusive. In this Letter, we report that the kinetics of the polymer loop formation reaction in a Kob-Andersen (KA) glass forming liquid is influenced significantly by the dynamic heterogeneity. The diffusion coefficient D of a KA liquid deviates from the Stokes-Einstein relation at low temperatures and D shows a fractional dependence on the solvent viscosity ηs, i.e., D∼ηs-ξD with ξD=0.85. The dynamic heterogeneity of a KA liquid affects the rate constant krxn of the loop formation and leads to the identical fractional dependence of krxn on ηs with krxn∼ηs-ξ and ξ=ξD, contrary to reactions in dynamically homogeneous solutions where krxn∼ηs-1.

AB - The diffusion of molecules in complex systems such as glasses and cell cytoplasm is slow, heterogeneous, and sometimes nonergodic. The effects of such intriguing diffusion on the kinetics of chemical and biological reactions remain elusive. In this Letter, we report that the kinetics of the polymer loop formation reaction in a Kob-Andersen (KA) glass forming liquid is influenced significantly by the dynamic heterogeneity. The diffusion coefficient D of a KA liquid deviates from the Stokes-Einstein relation at low temperatures and D shows a fractional dependence on the solvent viscosity ηs, i.e., D∼ηs-ξD with ξD=0.85. The dynamic heterogeneity of a KA liquid affects the rate constant krxn of the loop formation and leads to the identical fractional dependence of krxn on ηs with krxn∼ηs-ξ and ξ=ξD, contrary to reactions in dynamically homogeneous solutions where krxn∼ηs-1.

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ER -

Fractional Viscosity Dependence of Reaction Kinetics in Glass-Forming Liquids

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