RT Journal Article
T1 Non-additive electronic polarizabilities of ionic liquids: charge delocalization effects
A1 Rodríguez-Fernández, Carlos Damián
A1 López Lago, María Elena
A1 Schröder, Christian
A1 Varela Cabo, Luis Miguel
K1 Ionic liquids
K1 Electronic polarizability
K1 Refractive index
K1 Intramolecular charge delocalization
K1 Volume calculation
K1 Density functional theory (DFT)
AB Electronic charge delocalization on the molecular backbones of ionic liquid-forming ions substantially impacts their molecular polarizabilities. Density functional theory calculations of polarizabilities and volumes of many cations and anions are reported and applied to yield refractive indices of 1216 ionic liquids. A novel expression for the precise estimation of the molecular volumes of the ionic liquids from simulation data is also introduced, adding quadratic corrections to the usual sum of atomic volumes. Our significant findings include i) that the usual assumption of uniform, additive atomic polarizabilities is challenged when highly mobile electrons in conjugated systems are present, and ii) that cations with conjugated large carbon chains can be used together with anions for the design of ionic liquids with very high refractive indices. A novel relation for the polarizability volume is reported together with a refractive index map made up of the studied ionic liquids
PB Elsevier
YR 2022
FD 2022
LK http://hdl.handle.net/10347/27671
UL http://hdl.handle.net/10347/27671
LA eng
NO Journal of Molecular Liquids 346 (2022) 117099. https://doi.org/10.1016/j.molliq.2021.117099
NO This work was supported by Ministerio de Economia y Competitividad (MINECO) and FEDER Program through the project MAT2017-89239-C2-1-P; Xunta de Galicia and FEDER (ED431D 2017/06, ED431E2018/08, GRC 508 ED431C 2020/10). C. D. R. F. thanks the support of Xunta de Galicia through the grant ED481A-2018/032. We also thank the Centro de Supercomputacion de Galicia (CESGA) facility, Santiago de Compostela, Galicia, Spain, for providing the computational resources employed in this work
DS Minerva
RD 24 abr 2026