Evolution of microscopic heterogeneity and dynamics in choline chloride-based deep eutectic solvents

Abstract Deep eutectic solvents (DESs) are an emerging class of non-aqueous solvents that are potentially scalable, easy to prepare and functionalize for many applications ranging from biomass processing to energy storage technologies. Predictive understanding of the fundamental correlations between...

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Published in:Nature communications 2022-01, Vol.13 (1)
Main Authors: Spittle, Stephanie, Poe, Derrick, Doherty, Brian, Kolodziej, Charles, Heroux, Luke, Haque, Md Ashraful, Squire, Henry, Cosby, Tyler, Zhang, Yong, Fraenza, Carla, Bhattacharyya, Sahana, Tyagi, Madhusudan, Peng, Jing, Elgammal, Ramez A., Zawodzinski, Thomas, Tuckerman, Mark, Greenbaum, Steve, Gurkan, Burcu, Burda, Clemens, Dadmun, Mark, Maginn, Edward J., Sangoro, Joshua
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container_title Nature communications
container_volume 13
creator Spittle, Stephanie
Poe, Derrick
Doherty, Brian
Kolodziej, Charles
Heroux, Luke
Haque, Md Ashraful
Squire, Henry
Cosby, Tyler
Zhang, Yong
Fraenza, Carla
Bhattacharyya, Sahana
Tyagi, Madhusudan
Peng, Jing
Elgammal, Ramez A.
Zawodzinski, Thomas
Tuckerman, Mark
Greenbaum, Steve
Gurkan, Burcu
Burda, Clemens
Dadmun, Mark
Maginn, Edward J.
Sangoro, Joshua
description Abstract Deep eutectic solvents (DESs) are an emerging class of non-aqueous solvents that are potentially scalable, easy to prepare and functionalize for many applications ranging from biomass processing to energy storage technologies. Predictive understanding of the fundamental correlations between local structure and macroscopic properties is needed to exploit the large design space and tunability of DESs for specific applications. Here, we employ a range of computational and experimental techniques that span length-scales from molecular to macroscopic and timescales from picoseconds to seconds to study the evolution of structure and dynamics in model DESs, namely Glyceline and Ethaline, starting from the parent compounds. We show that systematic addition of choline chloride leads to microscopic heterogeneities that alter the primary structural relaxation in glycerol and ethylene glycol and result in new dynamic modes that are strongly correlated to the macroscopic properties of the DES formed.
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title Evolution of microscopic heterogeneity and dynamics in choline chloride-based deep eutectic solvents
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