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| Naji, M. |
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| Azevedo, Nuno Monteiro |
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Silva, Maria Manuela
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Topics
Publications (61/61 displayed)
- 2024Coaxial fibres incorporated with phase change materials for thermoregulation applicationscitations
- 2022Chitosan‑based electrolytes containing carbon nanotube‑titanium dioxide for energy conversion devices applicationscitations
- 2022Solid polymer electrolytes based on gellan gum and ionic liquid for sustainable electrochromic devicescitations
- 2022Comparison of physical/chemical properties of Prussian Blue thin films prepared by different pulse and DC electrodeposition methodscitations
- 2022Solid Polymer Electrolytes Based on Gellan Gum and Ionic Liquid for Sustainable Electrochromic Devicescitations
- 2021Enhanced ionic conductivity in poly(vinylidene fluoride) electrospun separator membranes blended with different ionic liquids for lithium ion batteriescitations
- 2021Fundamentals and advances of electrochromic systems: a reviewcitations
- 2021Gellan-gum and LiTFSI-Based solid polymer electrolytes for electrochromic devicescitations
- 2020Chitosan polymer electrolytes doped with a dysprosium ionic liquidcitations
- 2020Proton conducting electrolytes composed of chondroitin sulfate polysaccharide and citric acidcitations
- 2019The physical and electrochromic properties of Prussian Blue thin films electrodeposited on ITO electrodescitations
- 2019Structural, morphological, thermal and electrochemical characteristics of chitosan: praseodymium triflate based solid polymer electrolytescitations
- 2019Theoretical simulation of the optimal relation between active material, binder and conductive additive for lithium-ion battery cathodescitations
- 2019Study of ionically conducting nanocomposites for reflective electrochromic devicescitations
- 2018Green polymer electrolytes of chitosan doped with erbium triflatecitations
- 2018Samarium (III) triflate-doped chitosan electrolyte for solid state electrochromic devicescitations
- 2018Binary Ce(III) and Li(I) triflate salt composition for solid polymer electrolytescitations
- 2017Effect of storage time on the ionic conductivity of chitosan-solid polymer electrolytes incorporating cyano-based ionic liquidscitations
- 2017Innovative electrolytes based on chitosan and thulium for solid state applications: synthesis, structural, and thermal characterizationcitations
- 2017Polymer electrolytes for electrochromic devices through solvent casting and sol-gel routescitations
- 2017Structural, morphological, ionic conductivity, and thermal properties of pectin-based polymer electrolytescitations
- 2017A luminescent europium ionic liquid to improve the performance of chitosan polymer electrolytescitations
- 2017Playing with ionic liquids to uncover novel solid polymer electrolytescitations
- 2016Optimization of filler type within poly(vinylidene fluoride-co-trifluoroethylene) composite separator membranes for improved lithium-ion battery performancecitations
- 2016Electromechanical actuators based on poly(vinylidene fluoride) with [N1 1 1 2(OH)][NTf2] and [C2mim] [C2SO4]citations
- 2016High performance screen-printed electrodes prepared by a green solvent approach for lithium-ion batteriescitations
- 2016Luminescent polymer electrolytes based on chitosan and containing europium triflatecitations
- 2016Influence of solvent evaporation rate during C-LiFePO4 cathode film preparation on lithium-ion battery performancecitations
- 2016Titanium oxide adhesion layer for high temperature annealed Si/Si3N4/TiOx/Pt/LiCoO2 battery structurescitations
- 2016Influence of fluoropolymer binders on the electrochemical performance of C-LiFePO4 based cathodescitations
- 2015High performance electromechanical actuators based on ionic liquid/poly(vinylidene fluoride)citations
- 2015Lithium-doped silk fibroin films for application in electrochromic devices
- 2015Effect of the degree of porosity on the performance of poly(vinylidene fluoride-trifluoroethylene)/poly(ethylene oxide) blend membranes for lithium-ion battery separatorscitations
- 2015Poly(vinylidene fluoride-co-chlorotrifluoroethylene) (PVDF-CTFE) lithium-ion battery separator membranes prepared by phase inversioncitations
- 2015Variation of the physicochemical and morphological characteristics of solvent casted poly(vinylidene fluoride) along its binary phase diagram with dimethylformamidecitations
- 2015Thermal-mechanical behaviour of chitosan-cellulose derivative thermoreversible hydrogel filmscitations
- 2015Tailoring poly(vinylidene fluoride-co-chlorotrifluoroethylene) microstructure and physicochemical properties by exploring its binary phase diagram with dimethylformamidecitations
- 2015Effect of ionic liquid anion and cation on the physico-chemical properties of poly(vinylidene fluoride)/ionic liquid blendscitations
- 2015Effect of the alkyl chain length of the ionic liquid anion on polymer electrolytes propertiescitations
- 2015Erratum to: Thermal–mechanical behaviour of chitosan–cellulose derivative thermoreversible hydrogel films
- 2014Physicochemical properties of poly(vinylidene fluoride-trifluoroethylene)/poly(ethylene oxide) blend membranes for lithium ion battery applications : influence of poly(ethylene oxide) molecular weightcitations
- 2013Li-ion battery separator membranes based on poly(vinylidene fluoride-trifluoroethylene)/carbon nanotube compositescitations
- 2013Microporous membranes of NaY zeolite/poly(vinylidene fluoride-trifluoroethylene) for Li-ion battery separatorscitations
- 2013Evaluation of the main processing parameters influencing the performance of poly(vinylidene fluoride – trifluorethylene) lithium ion battery separatorscitations
- 2013Development of solid polymer electrolytes based on poly(vinylidene fluoride-trifluoroethylene) and the [N1 1 1 2(OH)][NTf2] ionic liquid for energy storage applicationscitations
- 2013Electrochemical applications of electrolytes based on ionic liquidscitations
- 2013Battery separators based on vinylidene fluoride (VDF) polymers and copolymers for lithium ion battery applicationscitations
- 2013Effect of fiber orientation in gelled poly(vinylidene fluoride) electrospun membranes for Li-ion battery applicationscitations
- 2013Durability of PCL nanocomposites under different environmentscitations
- 2012Synthesis and electrochemical characterization of aPEO-based polymer electrolytecitations
- 2012Synthesis and characterization of amorphous poly(ethylene oxide)/poly(trimethylene carbonate) polymer blend electrolytescitations
- 2012Effect of the microsctructure and lithium-ion content in poly[(vinylidene fluoride)-co-trifluoroethylene]/ lithium perchlorate trihydrat composite membranes for battery applicationscitations
- 2011Preliminary characterisation of LiAsF6 hybrid polymer electrolytes for electrochromic devicescitations
- 2011Characterization of pTMCnLiPF6 solid polymer electrolytescitations
- 2011Stability of nanocomposites of poly(ε-caprolactone) with tungsten trioxidecitations
- 2010Solid-state electrochromic devices using pTMC/PEO blends as polymer electrolytescitations
- 2009Interpenetrating polymer networks based on poly(trimethylene carbonate) and poly(ethylene oxide) blends doped with lithium saltscitations
- 2007Electrochemical and thermal properties of polymer electrolytes based on poly(epichlorohydrin-co-ethylene oxide co-allyl glycidyl ether)citations
- 2007Thermal analysis of a polymorphic azo dye derived from 2-amino-5-nitrothiazolecitations
- 2004Characterization of solid polymer electrolytes based on poly(trimethylenecarbonate) and lithium tetrafluoroboratecitations
- 2002Study of novel lithium salt-based, plasticized polymer electrolytescitations
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article
Battery separators based on vinylidene fluoride (VDF) polymers and copolymers for lithium ion battery applications
Abstract
Poly(vinylidene fluoride), PVDF, and its copolymers exhibit interesting properties for being used as separator membranes in lithium-ion battery applications. This review presents the developments and summarizes the main characteristics of these materials for battery separator membranes. The review is divided into three categories regarding the composition of the polymer membranes: single polymers, polymer composites and polymer blends. For each category, the main characteristics for battery separator membranes and the ion transport behaviour is presented. Finally, guidelines for further investigations are outlined. ; This work is funded by FEDER funds through the “Programa Operacional Factores de Competitividade—COMPETE” and by national funds from FCT—Fundação para a Ciência e a Tecnologia, in the framework of the strategic project Strategic Project PEST-C/FIS/UI607/2011and the projects PTDC/CTM/69316/2006, project no. F-COMP-01-0124-FEDER-022716 (refª FCT PEst-C/QUI/UI0686/2011) and NANO/NMed-SD/0156/2007, and grant SFRH/BD/68499/2010 (C.M.C.) The authors thank Celgard LLC, Timcal, Solvay, Arkema and Clariant for kindly supplying their high quality membranes and excellent materials, respectively. The authors also thank support from the COST Action MP1003, 2010 ‘European Scientific Network for Artificial Muscles.’