Single-ion-conducting nanocomposite polymer electrolytes based on PEG400 and anionic nanoparticles: Part 1. Synthesis, structure and properties
Articolo
Data di Pubblicazione:
2014
Abstract:
The synthesis and the properties of single-ion-conducting nanocomposite polymer electrolytes (nCPEs) are described. The nCPEs are obtained by doping polyethylene glycol 400
(PEG400) with different amounts of a fluorinated TiO2 -based nanofiller (LiFT) that is surface-functionalized with Li+ cations. Electrolytes with general formula [PEG400/(LiFT)y] and y ¼ n Ti /n PEG ranging from 0 to 26.4 are obtained. The materials are characterized by Inductively Coupled Plasma Atomic Emission Spectroscopy (ICP-AES), Thermogravimetric
Analysis (TGA), Differential Scanning Calorimetry (DSC), and Fourier-Transform Infrared Spectroscopy in both the medium (FT-MIR) and far infrared (FT-FIR). In the [PEG400/(LiFT)y]
electrolytes the concentration of LiFT nanofiller strongly affects the thermal stability and transitions of PEG400. In addition, vibrational measurements allow us to reveal the interactions occurring between: (a) different PEG400 chains; (b) PEG400 and Liþ cations; and (c) PEG400 and LiFT nanoparticles (NPs). On LiFT nanofiller concentration, results show three compositional regions in [PEG400/(LiFT)y] electrolytes which are correlated to the presence of three different interaction environments between LiFT NPs and PEG400 chains.
(PEG400) with different amounts of a fluorinated TiO2 -based nanofiller (LiFT) that is surface-functionalized with Li+ cations. Electrolytes with general formula [PEG400/(LiFT)y] and y ¼ n Ti /n PEG ranging from 0 to 26.4 are obtained. The materials are characterized by Inductively Coupled Plasma Atomic Emission Spectroscopy (ICP-AES), Thermogravimetric
Analysis (TGA), Differential Scanning Calorimetry (DSC), and Fourier-Transform Infrared Spectroscopy in both the medium (FT-MIR) and far infrared (FT-FIR). In the [PEG400/(LiFT)y]
electrolytes the concentration of LiFT nanofiller strongly affects the thermal stability and transitions of PEG400. In addition, vibrational measurements allow us to reveal the interactions occurring between: (a) different PEG400 chains; (b) PEG400 and Liþ cations; and (c) PEG400 and LiFT nanoparticles (NPs). On LiFT nanofiller concentration, results show three compositional regions in [PEG400/(LiFT)y] electrolytes which are correlated to the presence of three different interaction environments between LiFT NPs and PEG400 chains.
Tipologia CRIS:
01.01 - Articolo in rivista
Keywords:
Nanocomposite polymer electrolytes, LiFT nanoparticles, Single-ion-conductor, HR-TGA, DSC, Vibrational spectroscopies
Elenco autori:
Bertasi, Federico; Vezzu', Keti; Negro, Enrico; Steve, Greenbaum; DI NOTO, Vito
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