Odd-Even Structural Sensitivity on Dynamics in Network-Forming Ionic Liquids

Ke Yang; Zhikun Cai; Madhusudan Tyagi; Mikhail Feygenson; Joerg C. Neuefeind; Jeffrey S. Moore; Yang Zhang

doi:10.1021/acs.chemmater.6b01429

Odd-Even Structural Sensitivity on Dynamics in Network-Forming Ionic Liquids

Ke Yang, Zhikun Cai, Madhusudan Tyagi, Mikhail Feygenson, Joerg C. Neuefeind, Jeffrey S. Moore, Yang Zhang

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14 Scopus citations

Abstract

As a compelling case of sensitive structure-property relationship, an odd-even effect refers to the alternating trend of physical or chemical properties on odd/even number of repeating structural units. In crystalline or semicrystalline materials, such odd-even effects emerge as manifestations of differences in the periodic packing patterns of molecules. Therefore, due to the lack of long-range order, such an odd-even phenomenon is not expected for dynamic properties in amorphous state. Herein, we report the discovery of a remarkable odd-even effect of dynamical properties in the liquid phase. In a class of glass-forming diammonium citrate ionic liquids, using incoherent quasi-elastic neutron scattering measurements, we measured the dynamical properties including diffusion coefficient and rotational relaxation time. These directly measured molecular dynamics showed pronounced alternating trends with increased number of methylene (-CH₂-) groups in the backbone. Meanwhile, the structure factor S(Q) showed no long-range periodic packing of molecules, while the pair distribution function G(r) revealed subtle differences in the local molecular morphology. The observed dynamical odd-even phenomenon in liquids showed that profound dynamical changes originate from subtle local structural differences.

Original language	English
Pages (from-to)	3227-3233
Number of pages	7
Journal	Chemistry of Materials
Volume	28
Issue number	9
DOIs	https://doi.org/10.1021/acs.chemmater.6b01429
State	Published - May 10 2016

Funding

Y.Z. is supported by ACS PRF 55642-DNI6 and by the U.S. Department of Energy, Office of Science, Office of Basic Energy Sciences, Materials Sciences and Engineering Division, under Award DE-SC-0014804. This work utilized facilities supported in part by the National Science Foundation under Agreement DMR-1508249. Part of the research conducted at ORNLs SNS and ANLs APS was sponsored by the Scientific User Facilities Division, Office of Basic Energy Sciences, U.S. Department of Energy.

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title = "Odd-Even Structural Sensitivity on Dynamics in Network-Forming Ionic Liquids",

abstract = "As a compelling case of sensitive structure-property relationship, an odd-even effect refers to the alternating trend of physical or chemical properties on odd/even number of repeating structural units. In crystalline or semicrystalline materials, such odd-even effects emerge as manifestations of differences in the periodic packing patterns of molecules. Therefore, due to the lack of long-range order, such an odd-even phenomenon is not expected for dynamic properties in amorphous state. Herein, we report the discovery of a remarkable odd-even effect of dynamical properties in the liquid phase. In a class of glass-forming diammonium citrate ionic liquids, using incoherent quasi-elastic neutron scattering measurements, we measured the dynamical properties including diffusion coefficient and rotational relaxation time. These directly measured molecular dynamics showed pronounced alternating trends with increased number of methylene (-CH2-) groups in the backbone. Meanwhile, the structure factor S(Q) showed no long-range periodic packing of molecules, while the pair distribution function G(r) revealed subtle differences in the local molecular morphology. The observed dynamical odd-even phenomenon in liquids showed that profound dynamical changes originate from subtle local structural differences.",

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AU - Cai, Zhikun

AU - Tyagi, Madhusudan

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AU - Neuefeind, Joerg C.

AU - Moore, Jeffrey S.

AU - Zhang, Yang

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N2 - As a compelling case of sensitive structure-property relationship, an odd-even effect refers to the alternating trend of physical or chemical properties on odd/even number of repeating structural units. In crystalline or semicrystalline materials, such odd-even effects emerge as manifestations of differences in the periodic packing patterns of molecules. Therefore, due to the lack of long-range order, such an odd-even phenomenon is not expected for dynamic properties in amorphous state. Herein, we report the discovery of a remarkable odd-even effect of dynamical properties in the liquid phase. In a class of glass-forming diammonium citrate ionic liquids, using incoherent quasi-elastic neutron scattering measurements, we measured the dynamical properties including diffusion coefficient and rotational relaxation time. These directly measured molecular dynamics showed pronounced alternating trends with increased number of methylene (-CH2-) groups in the backbone. Meanwhile, the structure factor S(Q) showed no long-range periodic packing of molecules, while the pair distribution function G(r) revealed subtle differences in the local molecular morphology. The observed dynamical odd-even phenomenon in liquids showed that profound dynamical changes originate from subtle local structural differences.

AB - As a compelling case of sensitive structure-property relationship, an odd-even effect refers to the alternating trend of physical or chemical properties on odd/even number of repeating structural units. In crystalline or semicrystalline materials, such odd-even effects emerge as manifestations of differences in the periodic packing patterns of molecules. Therefore, due to the lack of long-range order, such an odd-even phenomenon is not expected for dynamic properties in amorphous state. Herein, we report the discovery of a remarkable odd-even effect of dynamical properties in the liquid phase. In a class of glass-forming diammonium citrate ionic liquids, using incoherent quasi-elastic neutron scattering measurements, we measured the dynamical properties including diffusion coefficient and rotational relaxation time. These directly measured molecular dynamics showed pronounced alternating trends with increased number of methylene (-CH2-) groups in the backbone. Meanwhile, the structure factor S(Q) showed no long-range periodic packing of molecules, while the pair distribution function G(r) revealed subtle differences in the local molecular morphology. The observed dynamical odd-even phenomenon in liquids showed that profound dynamical changes originate from subtle local structural differences.

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Odd-Even Structural Sensitivity on Dynamics in Network-Forming Ionic Liquids

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