Ion transport mechanism in anhydrous lithium thiocyanate LiSCN part II: frequency dependence and slow jump relaxation
M Joos, M Conrad, I Moudrakovski… - Physical Chemistry …, 2022 - pubs.rsc.org
Specific aspects of the Li+ cation conductivity of anhydrous Li (SCN) are investigated, in
particular the high migration enthalpy of lithium vacancies. Close inspection of impedance …
particular the high migration enthalpy of lithium vacancies. Close inspection of impedance …
Ion transport mechanism in anhydrous lithium thiocyanate LiSCN Part I: ionic conductivity and defect chemistry
This work reports on the ion transport properties and defect chemistry in anhydrous lithium
thiocyanate Li (SCN), which is a pseudo-halide Li+ cation conductor. An extensive doping …
thiocyanate Li (SCN), which is a pseudo-halide Li+ cation conductor. An extensive doping …
Lithium ion transport in water-containing Li (SCN) over a wide compositional range: From water doping to hydration
This work explores the Li+ cation transport mechanisms in the system Li (SCN)· x H 2 O,
complementary to our previous studies on crystal structures and hydration properties of …
complementary to our previous studies on crystal structures and hydration properties of …
[PDF][PDF] A 1: 1 solvate structure of succinonitrile and lithium thiocyanate
CM Burba, DR Powell - Acta Crystallographica Section E …, 2022 - journals.iucr.org
A 1: 1 solvate structure of succinonitrile and lithium thiocyanate, namely, catena-poly [lithium-
di-μ-thiocyanato-lithium-di-μ-butanedinitrile],[Li (NCS)(C4H4N2)] n or LiSCN· NC (CH2) …
di-μ-thiocyanato-lithium-di-μ-butanedinitrile],[Li (NCS)(C4H4N2)] n or LiSCN· NC (CH2) …