Research on the Preparation & Performance of Polymer Electrolyte Composite Materials

Yong Xia

doi:10.4028/www.scientific.net/AMR.548.68

Paper Titles

Calcined Kaolin Geopolymeric Powder: Influence of Water-to-Geopolymeric Powder Ratio
p.48

A New Palladium-Free Surface Activation Process for Cu Electroless Plating on ABS Plastic
p.54

The Strengthening of the Bridge Deck Plates by P.B.O-F.R.C.M Composite Materials
p.58

Investigation on Flame Retardant and Thermal Properties of Novel Intumescent Flame Retardant Low-Density Polyethylene Composites
p.64

Research on the Preparation & Performance of Polymer Electrolyte Composite Materials
p.68

The Study on Exchange-Coupled between Nd₂Fe₁₄B Hard Magnetic Phase and α-Fe Soft Magnetic Phase
p.73

Preparation and Preliminary Characterization of Chitosan from Catharsius molossus Discards
p.77

Characterization of LUSI Mud Volcano as Geopolymer Raw Material
p.82

Preparation and Characterization of Low MWCO PES/SPSF Blend Ultrafiltration Membrane
p.87

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 548Research on the Preparation & Performance of...

Research on the Preparation & Performance of Polymer Electrolyte Composite Materials

Abstract:

Solid polymer electrolyte has the potential application value on secondary battery, electro-chromic device, chemical transistor and other areas, because of its light weight and easy film formation. This article has added Niño silicon oxide into polymer electrolyte to form inorganic polymer composite electrolyte and has taken test on its stability and electrical conductivity; from the test conclusion, the addition of Niño silicon oxide has changed the stability of polymer and destroyed polymer crystallization, which has increased amorphous region that is beneficial for Ionic conduction in the system. The addition of silicon oxide has also changed polymer electrical conductivity which has become higher, comparing with that without silicon oxide. The addition of inorganic particles has reduced system’s crystallinity that is beneficial for the movement of molecular chain segment, which has also improved mobility of ions and electrical conductivity of ions consequently.

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Periodical:

Advanced Materials Research (Volume 548)

Pages:

68-72

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.548.68

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Online since:

July 2012

Authors:

Yong Xia

Keywords:

Composite Material, Electrolyte, Polymer, Preparation

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