Literature DB >> 32036437

The diffusion, structural relaxation, and fragility of [VIO2+][Tf2N-]2 ionic liquid.

Shikai Tian1, Yi Luo1, Zhongqin Zhao1, Nan Deng1, Gan Ren2.   

Abstract

Viologen-based ionic liquids can form various microscopic structures at different temperatures. In this work, the dynamics of dimethyl-viologen bis-(tetrafluoroborate) ([VIO2+][Tf2N-]2) ionic liquid within 400-800 K has been exploited by molecular dynamics simulations. [VIO2+][Tf2N-]2 exhibits a supercooled liquid analogous diffusion and structural relaxation even at temperature T = 400 K, and behaves more like simple liquids as temperature increases. The variation of the diffusion constant and structural relaxation time with temperature follows a super-Arrhenius law; both can be fitted by two Arrhenius laws with a crossover temperature or fitted by a VFT law. [VIO2+][Tf2N-]2 behaves as a fragile glass former. The decoupling of diffusion and relaxation is observed in [VIO2+] but not in [Tf2N-]. The variation of dynamics with temperature is attributed to the time differences of the persistence in ion cage and exchange out of ion cage.

Entities:  

Keywords:  Arrhenius law; Fragility; Ionic liquids; Molecular dynamics; [VIO2+][Tf2N−]2

Year:  2020        PMID: 32036437     DOI: 10.1007/s00894-020-4317-8

Source DB:  PubMed          Journal:  J Mol Model        ISSN: 0948-5023            Impact factor:   1.810


  34 in total

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