effects of nano alumina and plasticizers on morphology ionic

effects of nano alumina and plasticizers on morphology, ionic

Effects of Nano Alumina and Plasticizers on Morphology, Ionic

Nano alumina (Al 2 O 3) was used as filler, and dioxyphthalate (DOP) and polyethylene glycol (PEG) applied as plasticizers. Various concentrations of lithium salts, nano alumina and plasticizers (5, 10, 15 and 20 wt%) were studied. The morphology, ionic conductivity, thermal and mechanical properties of the SPE were also examined.

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effects of nano alumina and plasticizers on morphology, ionic

Effects of Nano Alumina and Plasticizers on Morphology, Ionic

Nano alumina (Al 2 O 3 ) was used as filler, and dioxyphthalate (DOP) and polyethylene glycol (PEG) applied as plasticizers. Various concentrations of lithium salts, nano alumina and plasticizers (5, 10, 15 and 20 wt%) were studied. The morphology, ionic conductivity, thermal and mechanical properties of the SPE were also examined.

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effects of nano alumina and plasticizers on morphology, ionic

Effects of Nano Alumina and Plasticizers on Morphology, Ionic

Download Citation | Effects of Nano Alumina and Plasticizers on Morphology, Ionic Conductivity, Thermal and Mechanical Properties of PEO-LiCF3SO3 Solid Polymer Electrolyte | In this contribution

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effects of nano alumina and plasticizers on morphology, ionic

Effects of nano alumina and plasticizers on morphology, ionic

Effects of nano alumina and plasticizers on morphology, ionic conductivity, thermal and mechanical properties of PEO-LiCF3SO3 Solid Polymer Electrolyte

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effects of nano alumina and plasticizers on morphology, ionic

Effects of nano alumina and plasticizers on morphology, ionic

Effects of nano alumina and plasticizers on morphology, ionic conductivity, thermal and mechanical properties of PEO-LiCF3SO3 Solid Polymer Electrolyte นักวิจัย Klongkan,S. , Pumchusak,J.

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effect of nanoadditives on ionic conductivity of solid

Effect of nanoadditives on ionic conductivity of solid

Various concentrations of lithium salts, nano alumina and plasticizers (5, 10, 15 and 20 wt%) were studied. The morphology, ionic conductivity, thermal and mechanical properties of the SPE were

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effect of titanium dioxide and zinc oxide fillers on

Effect of titanium dioxide and zinc oxide fillers on

Klongkan S and Pumchusak J 2015 Effects of nano alumina and plasticizers on morphology, ionic conductivity, thermal and mechanical properties of PEO-LiCF3SO3 solid polymer electrolyte Electrochim. Acta 161 171–6. Crossref Google Scholar

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peo-hbn-naclo4 polymer composite electrolyte for sodium ion

PEO-hBN-NaClO4 Polymer Composite Electrolyte for Sodium Ion

S. Klongkan and J. Pumchusak, "Effects of nano alumina and plasticizers on morphology, ionic conductivity, thermal and mechanical properties of PEO-LiCF 3 SO 3 solid polymer electrolyte," Electrochimica Acta, vol. 161, pp. 171-176, 2015.

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effects of nano alumina and plasticizers on morphology, ionic

Effects of nano alumina and plasticizers on morphology, ionic

Effects of nano alumina and plasticizers on morphology, ionic conductivity, thermal and mechanical properties of PEO-LiCF3SO3 Solid Polymer Electrolyte นักวิจัย Klongkan,S. , Pumchusak,J.

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effect of nanoadditives on ionic conductivity of solid

Effect of nanoadditives on ionic conductivity of solid

Various concentrations of lithium salts, nano alumina and plasticizers (5, 10, 15 and 20 wt%) were studied. The morphology, ionic conductivity, thermal and mechanical properties of the SPE were

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effect of zirconium oxide nanofiller and dibutyl phthalate

Effect of Zirconium Oxide Nanofiller and Dibutyl Phthalate

Combined effect of Al 2 O 3 nano-fillers and EC plasticizer on ionic conductivity enhancement in the solid polymer electrolyte (PEO) 9 LiTf. Solid State Ionics . 2007; 178 (13-14):885–888.

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effect of al2o3 nanofiller on the electrical, thermal and

Effect of Al2O3 nanofiller on the electrical, thermal and

Klongkan S, Pumchusak J (2015) Effects of nano alumina and plasticizers on morphology, ionic conductivity, thermal and mechanical properties of PEO-LiCF 3 SO 3 solid polymer electrolyte. Electrochim Acta 161:171–176. doi: 10.1016/j.electacta.2015.02.074

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effect of nano-filler on structural and ionic transport

Effect of Nano-Filler on Structural and Ionic Transport

effect of nano-filler Al. 2. O. 3. on structural and ionic trans-port properties of PEO-PMMA-AgNO. 3-EC (PPAE) poly- mer electrolyte. The effects of this and other nano-fillers in different systems have been reported previously by many workers [6,7,13,14] but a systematic study of nano- filler Al. 2. O. 3. to plasticized PEO-PMMA polymer blend

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effect of plasticizers (ec or pc) on the ionic conductivity

Effect of plasticizers (EC or PC) on the ionic conductivity

In present work, we have shown the ionic conductivity can be substantially enhanced by using the combined effect of the plasticizers as well as the inert filler. It was revealed that the incorporating 15 wt.% Al2O3 filler in to PEO: LiTf polymer electrolyte significantly enhanced the ionic conductivity [σRT (max) = 7.8 × 10−6 S cm−1].

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effect of nano-porous alumina filler on thermal and

Effect of Nano-Porous Alumina Filler on Thermal and

onic conductivity, dielectric and thermal properties of (PEO)12LiBF4 solid polymer electrolyte, dispersed with nanoporous Al2O3 have been studied. Out of seven different compositions studied, the (PEO)12LiBF4 polymer-salt complex showed the highest conductivity with σ25 oC = 8.27 × 10-6 S cm-1.

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the effect of novel synthetic methods and parameters control

The Effect of Novel Synthetic Methods and Parameters Control

Alumina is an inorganic material, which is widely used in ceramics, catalysts, catalyst supports, ion exchange and other fields. The micromorphology of alumina determines its application in high tech and value-added industry and its development prospects. This paper gives an overview of the liquid phase synthetic method of alumina preparation, combined with the mechanism of its action. The

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understanding of effects of nano- al2 o 3 particles on ionic

Understanding of Effects of Nano- Al2 O 3 Particles on Ionic

Nanosized alumina was added to polyacrylonitrile (PAN)-lithium perchlorate electrolytes. Infrared (IR) absorption spectroscopy was employed to study the influence of on the ionic association in the composite electrolyte. The nano-filler helped the dissolution of the salt and the dissociation of nitrile-interaction

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effect of nano-filler on structural and ionic transport

Effect of Nano-Filler on Structural and Ionic Transport

effect of nano-filler Al. 2. O. 3. on structural and ionic trans-port properties of PEO-PMMA-AgNO. 3-EC (PPAE) poly- mer electrolyte. The effects of this and other nano-fillers in different systems have been reported previously by many workers [6,7,13,14] but a systematic study of nano- filler Al. 2. O. 3. to plasticized PEO-PMMA polymer blend

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effect of nano-porous alumina filler on thermal and

Effect of Nano-Porous Alumina Filler on Thermal and

onic conductivity, dielectric and thermal properties of (PEO)12LiBF4 solid polymer electrolyte, dispersed with nanoporous Al2O3 have been studied. Out of seven different compositions studied, the (PEO)12LiBF4 polymer-salt complex showed the highest conductivity with σ25 oC = 8.27 × 10-6 S cm-1.

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effect of ethylene carbonate as a plasticizer on cui/pva

Effect of ethylene carbonate as a plasticizer on CuI/PVA

One way to improve ionic conductivity is to incorporate nano-size oxide fillers such as TiO 2, ZrO 2, and SiO 2, or add low molecular weight organic plasticizers like ethylene carbonate (EC) (melting = 36 °C). The incorporation of plasticizer yield polymer electrolyte with enhanced conductivity by reducing crystallinity but with poor

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insights into the use of polyethylene oxide in energy storage

Insights into the use of polyethylene oxide in energy storage

Klongkan S and Pumchusak J 2015 Effects of nano alumina and plasticizers on morphology, ionic conductivity, thermal and mechanical properties of PEO-LiCF3SO3 solid polymer electrolyte Electrochim. Acta 161 171–6. Crossref

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effect of libf4 salt concentration on the properties of

Effect of LiBF4 Salt Concentration on the Properties of

The effect of LiBF 4 salt concentration on the ionic conductivity, chemical interaction, crystallinity, and morphology of plasticized MG49 based nanocomposite polymer electrolyte was investigated by AC impedance spectroscopy, XRD, and SEM. FTIR spectroscopy measurement showed the changes in the environment of functional groups, which leads to

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effect of nano‐tio2 dispersion on peo polymer electrolyte

Effect of nano‐TiO2 dispersion on PEO polymer electrolyte

The modified polymer membranes and the mesoporous films were characterized by SEM, TEM, AFM, ionic conductivity, and J‐V measurements. Dye‐sensitized solar cells (DSSC) have been fabricated in which PEO‐polymer electrolyte doped with and without nano‐TiO 2 were sandwiched between porous TiO 2 and counter electrodes.

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effect of aluminum oxide on the performance of ionic liquid

Effect of Aluminum Oxide on the Performance of Ionic Liquid

The aluminum–air (or oxygen) battery has received intense attention in the past because of its excellent benefits such as low cost and high energy density, but due to the challenging issues such as hydrogen evolution and inactive oxide film formation on the Al surface, it could not be fully applied. In this study, 1-Ethyl 3-Methyl Imidazolium Chloride ([EmIm]Cl) and aluminum chloride

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