Dielectric and Ion Transport Studies in [PVA: LiC₂H₃O₂]: Li₂Fe₅O₈Polymer Nanocomposite Electrolyte System

“…The third component may be either a high molecular weight polymer leading to formation of a blend-based electrolyte [7-9a] or inorganic inert filler [5,10] leading to formation of a composite polymer gel electrolyte. Among these two routes, introduction of insulating ceramic particles like Al 2 O 3 [11], SiO 2 [12], TiO 2 [6], etc., in a matrix electrolyte have not only shown improvement of the mechanical properties of polymer electrolytes but also they have been able to effectively control the growth of a passivation layer on electrodes and preserve the entrapped liquid during long-term storage [13,14a].…”

Dynamic Mechanical, DSC, and Electrical Investigations on Nano Al₂O₃Filled PVA:NH₄SCN:DMSO Polymer Composite Dried Gel Electrolytes

“…The third component may be either a high molecular weight polymer leading to formation of a blend-based electrolyte [7-9a] or inorganic inert filler [5,10] leading to formation of a composite polymer gel electrolyte. Among these two routes, introduction of insulating ceramic particles like Al 2 O 3 [11], SiO 2 [12], TiO 2 [6], etc., in a matrix electrolyte have not only shown improvement of the mechanical properties of polymer electrolytes but also they have been able to effectively control the growth of a passivation layer on electrodes and preserve the entrapped liquid during long-term storage [13,14a].…”

Dynamic Mechanical, DSC, and Electrical Investigations on Nano Al₂O₃Filled PVA:NH₄SCN:DMSO Polymer Composite Dried Gel Electrolytes

“…The increase in conductivity is generally attributed either to the formation of a new kinetic path via a thin interphase layer along the interface itself, or to a concentration enhancement due to space charges in the subinterface region [12][13][14][15][16][17][18][19] . These features are highly preferable for electrolytes used in numerous solid state electrochemical devices, such as secondary batteries and electrochromic display devices.…”

Preparation and Characterization of Polyindole–Iron Oxide Composite Polymer Electrolyte Containing LiClO₄

“…Nowadays, attention is attract to nanostructured hybrid materials owing to their unique and highly useful properties for optical, electronic and magnetic devices, catalytic materials, ceramics, adsorbents, membranes, biomaterials, coatings, etc [2][3][4][5] . Among all of the hybrid materials, polyimide hybrid nanocomposites have received great attentions [6][7][8][9][10][11] . Polyimide (PI) possesses reliable high temperature stability, good mechanical strength and excellent chemical resistance.…”

Synthesis and Thermal Properties of Polyimide/BaZrO₃Novel Nanocomposites