A.C impedance, XRD and thermal and FUR studies were carried out for pristine PVdF-co-HFP(30 wt.%)/PbTiO3(5 wt.%) polymer microcomposite electrolyte membranes (PMCEs) by varying three EC:DMC-LiBETI compositions (62.5:2.5 (NP2), 60.0:5.0 (NP3) and 57.5:7.5 (NP4) wt.%). The higher conductivity was noted 7.99 x 10(-5) S cm(-1) for NP4 and this account for better mobility of Li+ free cations. The studies were repeated by blending PEMA with PVdF-co-HFP in three blend ratios i.e., 7.5:22.5 (NP6) wt.% (1:3), 15:15 (NP7) wt.% (1:1) and 22.5:7.5 (NP8) wt.% (3:1) for the same EC/DMC-LiBETI compositions. While blending, the conductivity was decreased in general, and among the blend ratio, higher conductivity noted 4:60 x 10(-5) S cm(-1) for 3:1 (NP8) however it was lower than the pristine NP4. The temperature dependence of PMCE pristine and blended systems obeys Arrhenius behavior. The XRD diffractogram registers the dominance of lead titanate in pristine and blended systems albeit intensity variations. In DSC studies, variation of Delta H-m and T-m was noted due to PEMA, and hindrance of VdF crystallites was observed within its melting endotherm T-m range due to fixed dispersoid PbTiO3 which suggests that 3:1 ratio with 2.5 wt.% LiBETI with 5 wt.% PbTiO3 showed better thermal stability. DSC studies had not registered the effect of PEMA in the thermal scale scanned than pristine PMCEs. FOR investigation confirms molecular interactions in the vibrational range 400-2000 cm(-1) w.r.t. C=O, C-F and C-H stretchings.

• 出版日期2016-3-1