Abstract
Lithium hexafluorophosphate solutions in propylencarbonate and {gamma}-butyrolactone are investigated in a wide ranges of concentrations and temperatures using conductometry, viscosimetry, densimetry methods and measurements of lithium-7 nucleus spin-lattice relaxation rates. Absence of correlations between solution conductivity and ionization ability of solvents, which is conditioned by the prevailing viscosity effect, is shown. Notable effect of ion-dipole interaction on the formation of Li{sup +} ion electric field gradient is ascertained within the framework of ion association model. 15 refs.; 2 figs.; 1 tab.
Citation Formats
Plakhotnik, V N, Sukhaya, E M, and Mishustin, A I.
Association of ions in LiPF{sub 6} solutions in propylencarbonate and {gamma}-butyrolactone; Assotsiatsiya ionov v rastvorakh LiPF{sub 6} v propilenkarbonate i {gamma}-butirolaktone.
Russian Federation: N. p.,
1995.
Web.
Plakhotnik, V N, Sukhaya, E M, & Mishustin, A I.
Association of ions in LiPF{sub 6} solutions in propylencarbonate and {gamma}-butyrolactone; Assotsiatsiya ionov v rastvorakh LiPF{sub 6} v propilenkarbonate i {gamma}-butirolaktone.
Russian Federation.
Plakhotnik, V N, Sukhaya, E M, and Mishustin, A I.
1995.
"Association of ions in LiPF{sub 6} solutions in propylencarbonate and {gamma}-butyrolactone; Assotsiatsiya ionov v rastvorakh LiPF{sub 6} v propilenkarbonate i {gamma}-butirolaktone."
Russian Federation.
@misc{etde_252123,
title = {Association of ions in LiPF{sub 6} solutions in propylencarbonate and {gamma}-butyrolactone; Assotsiatsiya ionov v rastvorakh LiPF{sub 6} v propilenkarbonate i {gamma}-butirolaktone}
author = {Plakhotnik, V N, Sukhaya, E M, and Mishustin, A I}
abstractNote = {Lithium hexafluorophosphate solutions in propylencarbonate and {gamma}-butyrolactone are investigated in a wide ranges of concentrations and temperatures using conductometry, viscosimetry, densimetry methods and measurements of lithium-7 nucleus spin-lattice relaxation rates. Absence of correlations between solution conductivity and ionization ability of solvents, which is conditioned by the prevailing viscosity effect, is shown. Notable effect of ion-dipole interaction on the formation of Li{sup +} ion electric field gradient is ascertained within the framework of ion association model. 15 refs.; 2 figs.; 1 tab.}
journal = []
issue = {10}
volume = {40}
journal type = {AC}
place = {Russian Federation}
year = {1995}
month = {Oct}
}
title = {Association of ions in LiPF{sub 6} solutions in propylencarbonate and {gamma}-butyrolactone; Assotsiatsiya ionov v rastvorakh LiPF{sub 6} v propilenkarbonate i {gamma}-butirolaktone}
author = {Plakhotnik, V N, Sukhaya, E M, and Mishustin, A I}
abstractNote = {Lithium hexafluorophosphate solutions in propylencarbonate and {gamma}-butyrolactone are investigated in a wide ranges of concentrations and temperatures using conductometry, viscosimetry, densimetry methods and measurements of lithium-7 nucleus spin-lattice relaxation rates. Absence of correlations between solution conductivity and ionization ability of solvents, which is conditioned by the prevailing viscosity effect, is shown. Notable effect of ion-dipole interaction on the formation of Li{sup +} ion electric field gradient is ascertained within the framework of ion association model. 15 refs.; 2 figs.; 1 tab.}
journal = []
issue = {10}
volume = {40}
journal type = {AC}
place = {Russian Federation}
year = {1995}
month = {Oct}
}