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

Stephanie Spittle; Derrick Poe; Brian Doherty; Charles Kolodziej; Luke Heroux; Md Ashraful Haque; Henry Squire; Tyler Cosby; Yong Zhang; Carla Fraenza; Sahana Bhattacharyya; Madhusudan Tyagi; Jing Peng; Ramez A. Elgammal; Thomas Zawodzinski; Mark Tuckerman; Steve Greenbaum; Burcu Gurkan; Mark Dadmun; Edward J. Maginn; Joshua Sangoro

doi:10.1038/s41467-021-27842-z

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

Stephanie Spittle
, Derrick Poe
, Brian Doherty
, Charles Kolodziej
, Luke Heroux
, Md Ashraful Haque
, Henry Squire
, Tyler Cosby
, Yong Zhang
, Carla Fraenza
, Sahana Bhattacharyya
, Madhusudan Tyagi
, Jing Peng
, Ramez A. Elgammal
, Thomas Zawodzinski
, Mark Tuckerman
, Steve Greenbaum
, Burcu Gurkan
, Mark Dadmun
, Edward J. Maginn^*

Joshua Sangoro^*

^*此作品的通讯作者

材料科学与工程学院

University of Tennessee
University of Notre Dame
New York University
Case Western Reserve University
Oak Ridge National Laboratory
University of Tennessee
University of Tennessee Southern
City University of New York
National Institute of Standards and Technology
University of Maryland, College Park
NYU Shanghai

科研成果: 期刊稿件 › 文章 › 同行评审

117 引用（Scopus）

摘要

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.

源语言	英语
文章编号	219
期刊	Nature Communications
卷	13
期	1
DOI	https://doi.org/10.1038/s41467-021-27842-z
出版状态	已出版 - 12月 2022

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10.1038/s41467-021-27842-z

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Spittle, S., Poe, D., Doherty, B., Kolodziej, C., Heroux, L., Haque, M. A., Squire, H., Cosby, T., Zhang, Y., Fraenza, C., Bhattacharyya, S., Tyagi, M., Peng, J., Elgammal, R. A., Zawodzinski, T., Tuckerman, M., Greenbaum, S., Gurkan, B., Dadmun, M., ... Sangoro, J. (2022). Evolution of microscopic heterogeneity and dynamics in choline chloride-based deep eutectic solvents. Nature Communications, 13(1), 文章 219. https://doi.org/10.1038/s41467-021-27842-z

@article{013e880642884bb9b83d74b687e5f66b,

title = "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 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.",

author = "Stephanie Spittle and Derrick Poe and Brian Doherty and Charles Kolodziej and Luke Heroux and Haque, \{Md Ashraful\} and Henry Squire and Tyler Cosby and Yong Zhang and Carla Fraenza and Sahana Bhattacharyya and Madhusudan Tyagi and Jing Peng and Elgammal, \{Ramez A.\} and Thomas Zawodzinski and Mark Tuckerman and Steve Greenbaum and Burcu Gurkan and Mark Dadmun and Maginn, \{Edward J.\} and Joshua Sangoro",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

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doi = "10.1038/s41467-021-27842-z",

language = "英语",

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Spittle, S, Poe, D, Doherty, B, Kolodziej, C, Heroux, L, Haque, MA, Squire, H, Cosby, T, Zhang, Y, Fraenza, C, Bhattacharyya, S, Tyagi, M, Peng, J, Elgammal, RA, Zawodzinski, T, Tuckerman, M, Greenbaum, S, Gurkan, B, Dadmun, M, Maginn, EJ & Sangoro, J 2022, 'Evolution of microscopic heterogeneity and dynamics in choline chloride-based deep eutectic solvents', Nature Communications, 卷 13, 号码 1, 219. https://doi.org/10.1038/s41467-021-27842-z

TY - JOUR

T1 - Evolution of microscopic heterogeneity and dynamics in choline chloride-based deep eutectic solvents

AU - Spittle, Stephanie

AU - Poe, Derrick

AU - Doherty, Brian

AU - Kolodziej, Charles

AU - Heroux, Luke

AU - Haque, Md Ashraful

AU - Squire, Henry

AU - Cosby, Tyler

AU - Zhang, Yong

AU - Fraenza, Carla

AU - Bhattacharyya, Sahana

AU - Tyagi, Madhusudan

AU - Peng, Jing

AU - Elgammal, Ramez A.

AU - Zawodzinski, Thomas

AU - Tuckerman, Mark

AU - Greenbaum, Steve

AU - Gurkan, Burcu

AU - Dadmun, Mark

AU - Maginn, Edward J.

AU - Sangoro, Joshua

PY - 2022/12

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N2 - 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.

AB - 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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SN - 2041-1723

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JO - Nature Communications

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ER -

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

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