Unprecedented O:⇔:O compression and H↔H fragilization in Lewis solutions
Charge injection in terms of lone pairs ‘:’, protons, and ions upon acid and base solvation mediates thehydrogen bonding network and properties of Lewis solutions, and is ubiquitously important in manysubject areas of Chemical Physics. This work features the recent progress and future trends in this...
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sg-ntu-dr.10356-1449312020-12-03T07:00:27Z Unprecedented O:⇔:O compression and H↔H fragilization in Lewis solutions Sun, Chang Qing School of Electrical and Electronic Engineering NOVITUS Engineering::Electrical and electronic engineering O:H Lewis Solutions Charge injection in terms of lone pairs ‘:’, protons, and ions upon acid and base solvation mediates thehydrogen bonding network and properties of Lewis solutions, and is ubiquitously important in manysubject areas of Chemical Physics. This work features the recent progress and future trends in thisaspect with a focus on the solute–solvent interactions and hydrogen bond (O:H–O or HB) transitionfrom the vibration mode of ordinary water to the hydrating states. A combination of the O:H–O bondcooperativity notion, differential phonon spectrometrics, calorimetric detection, and quantum computa-tions clarified the solute capabilities of O:H–O bond transition in HX and YOH (X = Cl, Br, I and Y = Li,Na, K) solutions. The H+and the lone pair do not stay alone to move or shuttle freely between adjacentH2O molecules, but they are attached to a H2O molecule to form (H3O+and OH ) 4H2O tetrahedralmotifs, which transits an O:H–O bond into the H2H anti-HB point breaker in acidic solutions and intothe O:3:O super-HB compressor and polarizer in basic solutions, respectively. H2H disrupts the sol-vent network and surface stress, having the same effect of liquid heating on HB bond relaxation andthermal fluctuation on surface stress. The O:3:O compression lengthens and weakens the solute H–Obond, which heats up the solution during solvation. The H–O bonds due to H3O+contract by 3% anddue to OH shrink by 10%. The Y+and X ions perform in the same manner as they do in salt solutionsto form hydration shells through electrostatic polarization and hydrating H2O dipolar screen shielding.Focusing more on the O:H–O bond transition would be even more promising and revealing than on themanner and mobility of lone pair and proton transportation. Accepted version 2020-12-03T07:00:27Z 2020-12-03T07:00:27Z 2018 Journal Article Sun, C. Q. (2019). Unprecedented O:⇔:O compression and H↔H fragilization in Lewis solutions. Physical Chemistry Chemical Physics, 21(5), 2234-2250. doi:10.1039/C8CP06910G 1463-9076 https://hdl.handle.net/10356/144931 10.1039/C8CP06910G 5 21 2234 2250 en Physical Chemistry Chemical Physics © 2019 the Owner Societies. All rights reserved. This paper was published by Royal Society of Chemistry in Physical Chemistry Chemical Physics and is made available with permission of the Owner Societies. application/pdf |
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Engineering::Electrical and electronic engineering O:H Lewis Solutions Sun, Chang Qing Unprecedented O:⇔:O compression and H↔H fragilization in Lewis solutions |
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Charge injection in terms of lone pairs ‘:’, protons, and ions upon acid and base solvation mediates thehydrogen bonding network and properties of Lewis solutions, and is ubiquitously important in manysubject areas of Chemical Physics. This work features the recent progress and future trends in thisaspect with a focus on the solute–solvent interactions and hydrogen bond (O:H–O or HB) transitionfrom the vibration mode of ordinary water to the hydrating states. A combination of the O:H–O bondcooperativity notion, differential phonon spectrometrics, calorimetric detection, and quantum computa-tions clarified the solute capabilities of O:H–O bond transition in HX and YOH (X = Cl, Br, I and Y = Li,Na, K) solutions. The H+and the lone pair do not stay alone to move or shuttle freely between adjacentH2O molecules, but they are attached to a H2O molecule to form (H3O+and OH ) 4H2O tetrahedralmotifs, which transits an O:H–O bond into the H2H anti-HB point breaker in acidic solutions and intothe O:3:O super-HB compressor and polarizer in basic solutions, respectively. H2H disrupts the sol-vent network and surface stress, having the same effect of liquid heating on HB bond relaxation andthermal fluctuation on surface stress. The O:3:O compression lengthens and weakens the solute H–Obond, which heats up the solution during solvation. The H–O bonds due to H3O+contract by 3% anddue to OH shrink by 10%. The Y+and X ions perform in the same manner as they do in salt solutionsto form hydration shells through electrostatic polarization and hydrating H2O dipolar screen shielding.Focusing more on the O:H–O bond transition would be even more promising and revealing than on themanner and mobility of lone pair and proton transportation. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Sun, Chang Qing |
| format |
Article |
| author |
Sun, Chang Qing |
| author_sort |
Sun, Chang Qing |
| title |
Unprecedented O:⇔:O compression and H↔H fragilization in Lewis solutions |
| title_short |
Unprecedented O:⇔:O compression and H↔H fragilization in Lewis solutions |
| title_full |
Unprecedented O:⇔:O compression and H↔H fragilization in Lewis solutions |
| title_fullStr |
Unprecedented O:⇔:O compression and H↔H fragilization in Lewis solutions |
| title_full_unstemmed |
Unprecedented O:⇔:O compression and H↔H fragilization in Lewis solutions |
| title_sort |
unprecedented o:⇔:o compression and h↔h fragilization in lewis solutions |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144931 |
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1688665413239439360 |