Effect of plasticizer on structural and electrical properties of nanocomposite solid polymer electrolytes

Pradhan, Dillip K.; Samantaray, B. K.; Choudhary, R. N. P.; Karan, Naba K.; Thomas, Reji; Katiyar, Ram S.

doi:10.1007/s11581-010-0491-5

Cited by 69 publications

(67 citation statements)

References 23 publications

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“…Thus, plasticizers will be needed to change thermal and mechanical properties in Soluplus® formulations to take full advantage of its potential as a solubilizer and solid dispersion carrier which has been demonstrated in other studies (1,2) Plasticizers are generally nonvolatile, high boiling, low molecular weight compounds added to a polymer to improve its processability, flexibility, and stretchability by modifying the mechanical properties making the films more ductile, lowering the melt viscosity and the Tg of the product without altering the fundamental chemical character of the plasticized material (9,10). When incorporated into the polymer system, plasticizers can increase the free volume between the polymer chains which allows the chain segments to move and rotate more freely allowing for increased movement of polymer chains with respect to each other, consequently, decreasing the polymer Tg and melt viscosity (11,12).…”

Section: Introductionmentioning

confidence: 99%

Plasticizer Effects on Physical–Mechanical Properties of Solvent Cast Soluplus® Films

2013

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Abstract. Soluplus® is a novel amphiphilic polymer that has been shown to enhance the solubility and drug dissolution rate of poorly soluble drugs. However, there still is a lack of information regarding the physical mechanical properties of Soluplus® with addition of the plasticizers. This study characterized the mechanical properties of Soluplus® with four different plasticizers. The plasticizers selected were polyethylene glycol 6, triethyl citrate, propylene glycol, and glycerin; they were studied at three different levels (15%, 20%, and 25% w/w). The effects of these plasticizers on the glass transition temperature, tensile strength, percent elongation, and Young's modulus of free films made from Soluplus® were measured and the toughness and ratio of tensile strength to Young's modulus were calculated. These results showed these four plasticizers are capable to plasticizing Soluplus® as indicated by the glass transition temperature lowering, tensile strength, and Young's modulus while increasing the percent elongation and film toughness. Among the plasticizers tested, polyethylene glycol 6 showed greatest changed in the mechanical properties studied.

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Section: Introductionmentioning

confidence: 99%

Plasticizer Effects on Physical–Mechanical Properties of Solvent Cast Soluplus® Films

2013

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“…PEO has been used as host polymer and it contain crystallinity about 70-85%. It has linear chain formed with the repeating (CH 2 …”

Section: Methodsmentioning

confidence: 99%

“…Flexible material like organic polymer can produce excellent solid /solid interface between solid electrode and solid electrolyte [2]. The main role of polymer electrolyte is to act as separator between anode and cathode material in batteries [3].…”

Section: Introductionmentioning

confidence: 99%

Effect of Nano-Filler on the Properties of Polymer Nanocomposite Films of PEO/PAN Complexed with NaPF6

Bhatt¹,

Swaroop²,

Arya³

et al. 2015

JMSE-B

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Free standing transparent PNC (Polymer nanocomposite) films based on PEO/PAN + NaPF 6 with different concentration (wt./wt.) filler of nano sized (TiO 2 ) is synthesized by using standard solution cast technique. HRXRD (High resolution X-ray diffraction) and FESEM (Field emission scanning electron microscopy) have been performed to see the structural and microstructural behavior of the PNC films. The microscopic interaction among polymer, salt and nano-ceramic filler has been analyzed by FTIR (Fourier transformed infra-red) spectroscopy. The reduction of ion pair formation in polymeric separator is clearly observed on addition of nano-filler in the polymer salt complex film. Electrical (ionic/electronic) conductivity has been estimated (~ 10 -4 S/cm) optimized PNC films concentration of nanofiller (15 Wt.%). The estimated value of electrical conductivity is well corroborated by FTIR study. Thermal analysis has been done with thermo gravimetry analysis to find out thermal stability of PNC films. Transport properties associated due to majority mobile carriers ions and only negligible participation from electrons was observed through transport number analysis. The band gap (i.e. direct as well as indirect) decreases on the addition of nano-filler observed from the optical analysis. The estimated result of the prepared PNC films are at par with desired value for the device application.

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“…Consequently, much effort has been devoted to investigate amorphous polymeric materials with high ionic conductivity at room temperature with good mechanical and thermal properties. These include introducing new polymer host [3], blending [4], and plasticization [5] and filler addition [6].…”

Section: Introductionmentioning

confidence: 99%

Effects of MnO2 nano-particles on the conductivity of PMMA-PEO-LiClO4-EC polymer electrolytes

Tan

Johan

2011

Ionics

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Li-ion rechargeable batteries based on polymer electrolytes are of great interest for solid state electrochemical devices nowadays. Many studies have been carried out to improve the ionic conductivity of polymer electrolytes, which include polymer blending, incorporating plasticizers and filler additives in the electrolyte systems. This paper describes the effects of incorporating nano-sized MnO 2 filler on the ionic conductivity enhancement of a plasticized polymer blend PMMA-PEO-LiClO 4 -EC electrolyte system. The maximum conductivity achieved is within the range of 10 −3 S cm −1 by optimizing the composition of the polymers, salts, plasticizer, and filler. The temperature dependence of the polymer conductivity obeys the VTF relationship. DSC and XRD studies are carried out to clarify the complex formation between the polymers, salts, and plasticizer.

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Effect of plasticizer on structural and electrical properties of nanocomposite solid polymer electrolytes

Cited by 69 publications

References 23 publications

Plasticizer Effects on Physical–Mechanical Properties of Solvent Cast Soluplus® Films

Plasticizer Effects on Physical–Mechanical Properties of Solvent Cast Soluplus® Films

Effect of Nano-Filler on the Properties of Polymer Nanocomposite Films of PEO/PAN Complexed with NaPF6

Effects of MnO2 nano-particles on the conductivity of PMMA-PEO-LiClO4-EC polymer electrolytes

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