Ice Regelation: Hydrogen-bond extraordinary recoverability and water quasisolid-phase-boundary dispersivity
Regelation, i.e., ice melts under compression and freezes again when the pressure is relieved, remains puzzling since its discovery in 1850’s by Faraday. Here we show that hydrogen bond (O:H-O) cooperativity and its extraordinary recoverability resolve this anomaly. The H-O bond and the O:H nonbond...
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sg-ntu-dr.10356-1035252022-02-16T16:29:57Z Ice Regelation: Hydrogen-bond extraordinary recoverability and water quasisolid-phase-boundary dispersivity Zhang, Xi Huang, Yongli Sun, Peng Liu, Xinjuan Ma, Zengsheng Zhou, Yichun Zhou, Ji Zheng, Weitao Sun, Chang Qing School of Electrical and Electronic Engineering Regelation, i.e., ice melts under compression and freezes again when the pressure is relieved, remains puzzling since its discovery in 1850’s by Faraday. Here we show that hydrogen bond (O:H-O) cooperativity and its extraordinary recoverability resolve this anomaly. The H-O bond and the O:H nonbond possesses each a specific heat ηx(T/ΘDx) whose Debye temperature ΘDx is proportional to its characteristic phonon frequency ωx according to Einstein’s relationship. A superposition of the ηx(T/ΘDx) curves for the H-O bond (x = H, ωH ~ 3200 cm−1) and the O:H nonbond (x = L, ωL ~ 200 cm−1, ΘDL = 198 K) yields two intersecting temperatures that define the liquid/quasisolid/solid phase boundaries. Compression shortens the O:H nonbond and stiffens its phonon but does the opposite to the H-O bond through O-O Coulomb repulsion, which closes up the intersection temperatures and hence depress the melting temperature of quasisolid ice. Reproduction of the Tm(P) profile clarifies that the H-O bond energy EH determines the Tm with derivative of EH = 3.97 eV for bulk water and ice. Oxygen atom always finds bonding partners to retain its sp3-orbital hybridization once the O:H breaks, which ensures O:H-O bond recoverability to its original state once the pressure is relieved. Published version 2015-10-01T07:24:45Z 2019-12-06T21:14:33Z 2015-10-01T07:24:45Z 2019-12-06T21:14:33Z 2015 2015 Journal Article Zhang, X., Huang, Y., Sun, P., Liu, X., Ma, Z., Zhou, Y., et al. (2015). Ice Regelation: Hydrogen-bond extraordinary recoverability and water quasisolid-phase-boundary dispersivity. Scientific Reports, 5, 13655-. 2045-2322 https://hdl.handle.net/10356/103525 http://hdl.handle.net/10220/38766 10.1038/srep13655 26351109 en Scientific Reports This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ application/pdf |
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Regelation, i.e., ice melts under compression and freezes again when the pressure is relieved, remains puzzling since its discovery in 1850’s by Faraday. Here we show that hydrogen bond (O:H-O) cooperativity and its extraordinary recoverability resolve this anomaly. The H-O bond and the O:H nonbond possesses each a specific heat ηx(T/ΘDx) whose Debye temperature ΘDx is proportional to its characteristic phonon frequency ωx according to Einstein’s relationship. A superposition of the ηx(T/ΘDx) curves for the H-O bond (x = H, ωH ~ 3200 cm−1) and the O:H nonbond (x = L, ωL ~ 200 cm−1, ΘDL = 198 K) yields two intersecting temperatures that define the liquid/quasisolid/solid phase boundaries. Compression shortens the O:H nonbond and stiffens its phonon but does the opposite to the H-O bond through O-O Coulomb repulsion, which closes up the intersection temperatures and hence depress the melting temperature of quasisolid ice. Reproduction of the Tm(P) profile clarifies that the H-O bond energy EH determines the Tm with derivative of EH = 3.97 eV for bulk water and ice. Oxygen atom always finds bonding partners to retain its sp3-orbital hybridization once the O:H breaks, which ensures O:H-O bond recoverability to its original state once the pressure is relieved. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhang, Xi Huang, Yongli Sun, Peng Liu, Xinjuan Ma, Zengsheng Zhou, Yichun Zhou, Ji Zheng, Weitao Sun, Chang Qing |
| format |
Article |
| author |
Zhang, Xi Huang, Yongli Sun, Peng Liu, Xinjuan Ma, Zengsheng Zhou, Yichun Zhou, Ji Zheng, Weitao Sun, Chang Qing |
| spellingShingle |
Zhang, Xi Huang, Yongli Sun, Peng Liu, Xinjuan Ma, Zengsheng Zhou, Yichun Zhou, Ji Zheng, Weitao Sun, Chang Qing Ice Regelation: Hydrogen-bond extraordinary recoverability and water quasisolid-phase-boundary dispersivity |
| author_sort |
Zhang, Xi |
| title |
Ice Regelation: Hydrogen-bond extraordinary recoverability and water quasisolid-phase-boundary dispersivity |
| title_short |
Ice Regelation: Hydrogen-bond extraordinary recoverability and water quasisolid-phase-boundary dispersivity |
| title_full |
Ice Regelation: Hydrogen-bond extraordinary recoverability and water quasisolid-phase-boundary dispersivity |
| title_fullStr |
Ice Regelation: Hydrogen-bond extraordinary recoverability and water quasisolid-phase-boundary dispersivity |
| title_full_unstemmed |
Ice Regelation: Hydrogen-bond extraordinary recoverability and water quasisolid-phase-boundary dispersivity |
| title_sort |
ice regelation: hydrogen-bond extraordinary recoverability and water quasisolid-phase-boundary dispersivity |
| publishDate |
2015 |
| url |
https://hdl.handle.net/10356/103525 http://hdl.handle.net/10220/38766 |
| _version_ |
1725985532095234048 |