Role of Viscosity in Deviations from the Nernst–Einstein Relation | Zendy

Yunqi Shao | Zendy; Keisuke Shigenobu | Zendy; Masayoshi Watanabe | Zendy; Chao Zhang | Zendy

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Role of Viscosity in Deviations from the Nernst–Einstein Relation

Author(s) -

Yunqi Shao,

Keisuke Shigenobu,

Masayoshi Watanabe,

Chao Zhang

Publication year - 2020

Publication title -

the journal of physical chemistry b

Language(s) - English

Resource type - Journals

eISSN - 1520-6106

pISSN - 1520-5207

DOI - 10.1021/acs.jpcb.0c02544

Subject(s) - nernst equation , viscosity , einstein , relation (database) , thermodynamics , einstein relation , physics , mechanics , materials science , classical mechanics , computer science , economics , quantum mechanics , electrode , metric (unit) , operations management , database

Deviations from the Nernst-Einstein relation are commonly attributed to ion-ion correlation and ion pairing. Despite the fact that these deviations can be quantified by either experimental measurements or molecular dynamics simulations, there is no rule of thumb to tell the extent of deviations. Here, we show that deviations from the Nernst-Einstein relation are proportional to the inverse viscosity by exploring the finite-size effect on transport properties under periodic boundary conditions. This conclusion is in accord with the established experimental results of ionic liquids.

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