Structural effect of glyme–Li+ salt solvate ionic liquids on the conformation of poly(ethylene oxide)
Literature Information
Zhengfei Chen, Samila McDonald, Paul A. Fitzgerald, Gregory G. Warr, Rob Atkin
The conformation of 36 kDa polyethylene oxide (PEO) dissolved in three glyme–Li+ solvate ionic liquids (SILs) has been investigated by small angle neutron scattering (SANS) and rheology as a function of concentration and compared to a previously studied SIL. The solvent quality of a SIL for PEO can be tuned by changing the glyme length and anion type. Thermogravimetric analysis (TGA) reveals that PEO is dissolved in the SILs through Li+–PEO coordinate bonds. All SILs (lithium triglyme bis(trifluoromethanesulfonyl)imide ([Li(G3)]TFSI), lithium tetraglyme bis(pentafluoroethanesulfonyl)imide ([Li(G4)]BETI), lithium tetraglyme perchlorate ([Li(G4)]ClO4) and the recently published [Li(G4)]TFSI) are found to be moderately good solvents for PEO but solvent quality decreases in the order [Li(G4)]TFSI ∼ [Li(G4)]BETI > [Li(G4)]ClO4 > [Li(G3)]TFSI due to decreased availability of Li+ for PEO coordination. For the same glyme length, the solvent qualities of SILs with TFSI− and BETI− anions ([Li(G4)]TFSI and [Li(G4)]BETI) are very similar because they weakly coordinate with Li+, which facilitates Li+–PEO interactions. [Li(G4)]ClO4 presents a poorer solvent environment for PEO than [Li(G4)]BETI because ClO4− binds more strongly to Li+ and thereby hinders interactions with PEO. [Li(G3)]TFSI is the poorest PEO solvent of these SILs because G3 binds more strongly to Li+ than G4. Rheological and radius of gyration (Rg) data as a function of PEO concentration show that the PEO overlap concentrations, c* and c**, are similar in the three SILs.
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