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| Naji, M. |
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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
Polymer electrolytes for electrochromic devices through solvent casting and sol-gel routes
Abstract
<p>Ionically conductive membranes of gelatin and d-PCL(530)/siloxane doped with cyano-based ionic liquids (ILs) were prepared through solvent casting and sol-gel methods, respectively. The membranes were characterized in terms of ionic conductivity, thermal behavior, morphology, and structure. All samples, except the d-PCL(530)/siloxane matrix, exhibited a predominantly amorphous morphology. The samples prepared through solvent casting and sol-gel displayed a minimum thermal stability of 170 and 230 °C, respectively. The ionic conductivity varied according with the type, quantity, and length of the alkyl chain of the cation of the ILs. The sample with the highest ionic conductivity was gelatin<sub>0.5</sub>[C<sub>2</sub>mim][N(CN)<sub>2</sub>] with 2.40×10<sup>−3</sup> S cm<sup>−1</sup> at 25 °C and 1.68×10<sup>−2</sup> S cm<sup>−1</sup> at 95 °C. The good results of ionic conductivity encouraged the assembly and characterization of prototypes of electrochromic devices (ECDs). The best results were obtained with glass/ITO/WO<sub>3</sub>/gelatin<sub>1</sub>[C<sub>2</sub>mim][SCN]/CeO<sub>2</sub>-TiO<sub>2</sub>/ITO/glass configuration that showed a fast color switching time (~15 s) and a good open circuit memory (~4 h). The ECD changed its color from pale blue to transparent, and its charge density decreased from −17.53 to −2.71 mC cm<sup>−2</sup> during 640 color/bleaching cycles.</p>