The influence of anions in the ionic liquid-water mixtures on the conformational structures of emeraldine base and emeraldine salt form of polyaniline

[Display omitted] •Rg values do not change for EB, and a decrease is observed for ES with an increase in IL.•Backbone dihedral distribution shows trans state domination for EB and (trans and gauche) domination for ES.•Excess molar volume and solvation enthalpy show favorable interaction of EB and ES...

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Veröffentlicht in:Journal of molecular liquids 2024-05, Vol.402, p.124748, Article 124748
Hauptverfasser: Dharmendrakumar Gandhi, Chaitanya, Sappidi, Praveenkumar
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Sprache:eng
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Zusammenfassung:[Display omitted] •Rg values do not change for EB, and a decrease is observed for ES with an increase in IL.•Backbone dihedral distribution shows trans state domination for EB and (trans and gauche) domination for ES.•Excess molar volume and solvation enthalpy show favorable interaction of EB and ES in the presence of [EMIM]+[BF4]-. The development of antifouling membranes for water filtration applications is challenging. Conducting polymers can show enhanced antifouling characteristics by blending with various polymers, nanomaterials, and Ionic liquids (ILs). In this paper, we perform an all-atom molecular dynamics simulation on a conducting polymer polyaniline (PANI) immersed in IL-water mixtures. Two forms of PANI were considered, namely Emeraldine base (EB) and Emeraldine salt (ES) as well as two different water-mixed ILs are considered namely (a) 1-ethyl-3-methyl imidazolium [EMIM]+ hexafluorophosphate [PF6]- and (b) 1-ethyl-3-methyl imidazolium [EMIM]+ tetra-fluoroborate [BF4]-. We present various intra- and inter-molecular structural properties, solvation thermodynamics, and dynamic properties. We observe that with an increase in IL concentration, the radius of gyration (Rg) value shows a decrease for ES in pure state in both ILs; on the other hand, we see a minimal increase in the Rg values of EB in both ILs. The dihedral angle distribution analysis shows a combination of gauche and trans state for ES, whereas trans state is more pronounced for the case of EB in both water-IL mixtures. The radial distribution function (RDF) analysis between the ortho, meta carbons of the benzene rings, and the amine groups on ES with [BF4]- and [PF6]- show significant structural peaks. On the other hand, EB and ES show lower interaction with the water molecules. The number of hydrogen bonds (h-bonds) between polymer and water is higher for EB than ES in both IL-water mixtures. The hydrogen bond lifetime (τ) values show one-fold higher values for EB than ES. The self-diffusion coefficient (D) values of water show a decrease with an increase in IL concentration. The thermodynamic properties solvation enthalpy (ΔH) and excess molar volume (VmE) for both ES and EB show a more favorable solvation in [EMIM]+[BF4]- when compared to [EMIM]+[PF6]- with an increase in IL concentration. These observations are crucial for selecting ILs and designing sustainable polymers for antifouling membranes.
ISSN:0167-7322
DOI:10.1016/j.molliq.2024.124748