Discriminative ionic capabilities on hydrogen-bond transition from the mode of ordinary water to (Mg, Ca, Sr)(Cl, Br)₂ hydration
It has been a long pursuit to discriminate the ionic roles of mono- and di-valent salt solutions in modulating the hydrogen bonding network and solution properties. We attended this issue by examining the effect of concentrated YX 2 (Y[dbnd]Mg, Ca, Sr; X[dbnd]Cl, Br) solvation on O:H–O bonds transit...
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sg-ntu-dr.10356-1570722022-05-02T07:28:46Z Discriminative ionic capabilities on hydrogen-bond transition from the mode of ordinary water to (Mg, Ca, Sr)(Cl, Br)₂ hydration Fang, Hengxin Tang, Zhixu Liu, Xinjuan Huang, Yongli Sun, Changqing School of Electrical and Electronic Engineering Centre for Micro-/Nano-electronics (NOVITAS) Engineering::Electrical and electronic engineering Hydrogen Bonds Electric Fields It has been a long pursuit to discriminate the ionic roles of mono- and di-valent salt solutions in modulating the hydrogen bonding network and solution properties. We attended this issue by examining the effect of concentrated YX 2 (Y[dbnd]Mg, Ca, Sr; X[dbnd]Cl, Br) solvation on O:H–O bonds transition from the mode of ordinary water to hydration in terms of the number fraction f YX2 (C) and the segmental O:H–O bond phonon stiffness shift Δω(C) with C being the solute concentration. The invariant df Y (C) / dC at C ≤ <0.05 suggests that the small Y 2+ forms a constantly-sized hydration droplet with weak responding to interference of other ions because its hydrating H 2 O dipoles screen mostly its electric field. However, the number inadequacy of the highly-ordered hydrating H 2 O dipoles partially screens the large X − . The X − ↔ X − electrostatic repulsion weakens its electric field. The concentration-trend consistency of the f YX2 (C), the solution conductivity σ YX2 (C), and surface stress (contact angle) θ YX2 (C) for YX 2 solutions clarifies their common origin of ionic polarization. However, the Jones–Dale notion disobedience of the viscosity η YX2 (C) suggests the dominance of the inter-ion repulsion. Submitted/Accepted version Financial support received from Natural Science Foundation of China (Nos. 11872052(YL); 21875024(CQ)), and the Science Challenge Project (No. TZ2016001) of China are acknowledged. 2022-05-02T07:28:45Z 2022-05-02T07:28:45Z 2019 Journal Article Fang, H., Tang, Z., Liu, X., Huang, Y. & Sun, C. (2019). Discriminative ionic capabilities on hydrogen-bond transition from the mode of ordinary water to (Mg, Ca, Sr)(Cl, Br)₂ hydration. Journal of Molecular Liquids, 279, 485-491. https://dx.doi.org/10.1016/j.molliq.2019.01.147 0167-7322 https://hdl.handle.net/10356/157072 10.1016/j.molliq.2019.01.147 2-s2.0-85061205412 279 485 491 en Journal of Molecular Liquids © 2019 Elsevier B.V. All rights reserved. This paper was published in Journal of Molecular Liquids and is made available with permission of Elsevier B.V. application/pdf |
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Engineering::Electrical and electronic engineering Hydrogen Bonds Electric Fields Fang, Hengxin Tang, Zhixu Liu, Xinjuan Huang, Yongli Sun, Changqing Discriminative ionic capabilities on hydrogen-bond transition from the mode of ordinary water to (Mg, Ca, Sr)(Cl, Br)₂ hydration |
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It has been a long pursuit to discriminate the ionic roles of mono- and di-valent salt solutions in modulating the hydrogen bonding network and solution properties. We attended this issue by examining the effect of concentrated YX 2 (Y[dbnd]Mg, Ca, Sr; X[dbnd]Cl, Br) solvation on O:H–O bonds transition from the mode of ordinary water to hydration in terms of the number fraction f YX2 (C) and the segmental O:H–O bond phonon stiffness shift Δω(C) with C being the solute concentration. The invariant df Y (C) / dC at C ≤ <0.05 suggests that the small Y 2+ forms a constantly-sized hydration droplet with weak responding to interference of other ions because its hydrating H 2 O dipoles screen mostly its electric field. However, the number inadequacy of the highly-ordered hydrating H 2 O dipoles partially screens the large X − . The X − ↔ X − electrostatic repulsion weakens its electric field. The concentration-trend consistency of the f YX2 (C), the solution conductivity σ YX2 (C), and surface stress (contact angle) θ YX2 (C) for YX 2 solutions clarifies their common origin of ionic polarization. However, the Jones–Dale notion disobedience of the viscosity η YX2 (C) suggests the dominance of the inter-ion repulsion. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Fang, Hengxin Tang, Zhixu Liu, Xinjuan Huang, Yongli Sun, Changqing |
| format |
Article |
| author |
Fang, Hengxin Tang, Zhixu Liu, Xinjuan Huang, Yongli Sun, Changqing |
| author_sort |
Fang, Hengxin |
| title |
Discriminative ionic capabilities on hydrogen-bond transition from the mode of ordinary water to (Mg, Ca, Sr)(Cl, Br)₂ hydration |
| title_short |
Discriminative ionic capabilities on hydrogen-bond transition from the mode of ordinary water to (Mg, Ca, Sr)(Cl, Br)₂ hydration |
| title_full |
Discriminative ionic capabilities on hydrogen-bond transition from the mode of ordinary water to (Mg, Ca, Sr)(Cl, Br)₂ hydration |
| title_fullStr |
Discriminative ionic capabilities on hydrogen-bond transition from the mode of ordinary water to (Mg, Ca, Sr)(Cl, Br)₂ hydration |
| title_full_unstemmed |
Discriminative ionic capabilities on hydrogen-bond transition from the mode of ordinary water to (Mg, Ca, Sr)(Cl, Br)₂ hydration |
| title_sort |
discriminative ionic capabilities on hydrogen-bond transition from the mode of ordinary water to (mg, ca, sr)(cl, br)₂ hydration |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/157072 |
| _version_ |
1734310176947699712 |