Ionic diffusivity and conductivity of plasticized polymer electrolytes: PMFG-NMR The authors prefer the term pulsed gradient spin echo NMR (PGSE) rather than pulsed magnetic field gradient NMR (PMFG), but the latter term has been used here since it is more common in the literature. and complex impedance studies

M. Clericuzio, W. O. Parker, M. Soprani, M. Andrei

Risultato della ricerca: Contributo su rivistaArticolo in rivistapeer review

Abstract

Novel polymer electrolytes (LiBF4/plasticizer/PE) based on the interpenetrating network approach, were obtained starting from functionalized polyether network precursors, in the presence of LiBF4 and PC (propylene carbonate) or TGME (tetraethylene-glycol dimethyl-ether) as plasticizers. Self-consistent and easily handled membranes were obtained as thin films by a dry procedure using UV radiation to polymerize and crosslink the network precursors, directly on suitable substrates. These membranes were studied by complex impedance and 1H, 19F, 7Li PMFG (Pulsed Magnetic Field Gradient)-NMR was used to determine the self-diffusion coefficients (D) of the cation (DLi), anion (DF) and plasticizer (Dpl). Comparison of data from the two techniques allowed calculation of the deviation from the Nernst-Einstein equation (ΔNE) and information on ion associations. Ionic conductivities (σ) were measured for PC and TGME-based membranes at various plasticizer and salt contents as a function of T (60 to - 20 °C). LiBF4/PC/PE with 9% (w / w) salt and 59% PC has the highest σ (2.4 × 10-3 and 1.0 × 10-3 S/cm at 20 °C and -3 °C, respectively). Membranes with PC have higher σ than those of TGME due mainly to the greater amount of ion associations (correlated motions of ions) in TGME systems as evidenced by ΔNE· Li+ in PC seems to interact preferentially with the polymer. NMR shows that LiBF4/TGME/PE have higher cationic transport number (t+ = ca. 0.5), little affected by changing salt or TGME contents, and faster polymer chain motions than the corresponding PC system. ΔNE decreases with increasing T indicating that ion associations are favoured at high T. Simple binary electrolytes (LiBF4/plasticizer) were also studied by conductimetry and PMFG-NMR. The differences between PC and TGME electrolytes regarding σ, ΔNE and t+ were the same as found for ternary systems. D data show a larger Li+ solvation shell in LiBF4/PC and on increasing the salt content above 10% (w / w) σ drops rapidly (attributed to increased viscosity and ion associations).

Lingua originaleInglese
pagine (da-a)179-192
Numero di pagine14
RivistaSolid State Ionics
Volume82
Numero di pubblicazione3-4
DOI
Stato di pubblicazionePubblicato - 1 dic 1995
Pubblicato esternamente

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