Performance of PEMFC with new polyvinyl-ionic liquids based membranes as electrolytes

“…More specifically, the photopolymerization of ammonium and imidazolium RTIL monomers with either acrylate [32e34] or styrene-based [8,34e36] polymerizable groups have been already described for the preparation of dense films (20e200 mm in thickness) after 300 s of irradiation time. Recently, Ortiz and cols [36,8] have reported the conductivity and fuel cell performance of polymerized imidazolium-based protic ionic liquid [HSO 3 eBVIm þ ][OTf À ] achieving peak power density of 25 mW cm À2 at 40 C under dry conditions. Accounting from these results, the aim of this work is the preparation of conductive polymer films by photopolymerization of ionic liquid monomers with enhanced conduction performance for high temperature PEMFCs applications (up to 175 C).…”

“…Similarly, van de Ven and cols [19] reported power density values of 0.039 mW cm À2 at 150 C for tailor-made porous PBI support impregnated with [HMIm þ ][TFSI À ] as conductive filler. The impregnation of Nafion 112 with [HSO 3 -BMIm þ ][NTf 2 À] ionic liquid rendered in peak power densities of 50 mW cm À2 and 0.4 mW cm À2 at 25 C under wet and dry conditions, respectively[8]. Among the published results on high temperature PEMFCs, the composite membrane based on polypropylene matrix impregnated with an ionic liquid tertiary amine phos-…”

UV polymerization of room temperature ionic liquids for high temperature PEMs: Study of ionic moieties and crosslinking effects

“…More specifically, the photopolymerization of ammonium and imidazolium RTIL monomers with either acrylate [32e34] or styrene-based [8,34e36] polymerizable groups have been already described for the preparation of dense films (20e200 mm in thickness) after 300 s of irradiation time. Recently, Ortiz and cols [36,8] have reported the conductivity and fuel cell performance of polymerized imidazolium-based protic ionic liquid [HSO 3 eBVIm þ ][OTf À ] achieving peak power density of 25 mW cm À2 at 40 C under dry conditions. Accounting from these results, the aim of this work is the preparation of conductive polymer films by photopolymerization of ionic liquid monomers with enhanced conduction performance for high temperature PEMFCs applications (up to 175 C).…”

“…Similarly, van de Ven and cols [19] reported power density values of 0.039 mW cm À2 at 150 C for tailor-made porous PBI support impregnated with [HMIm þ ][TFSI À ] as conductive filler. The impregnation of Nafion 112 with [HSO 3 -BMIm þ ][NTf 2 À] ionic liquid rendered in peak power densities of 50 mW cm À2 and 0.4 mW cm À2 at 25 C under wet and dry conditions, respectively[8]. Among the published results on high temperature PEMFCs, the composite membrane based on polypropylene matrix impregnated with an ionic liquid tertiary amine phos-…”

UV polymerization of room temperature ionic liquids for high temperature PEMs: Study of ionic moieties and crosslinking effects

“…Introduction Room Temperature Ionic liquids (RTILs) have been extensively investigated as novel electrolyte materials for a wide range of electrochemical devices including capacitors [1], thermo-cells [2], fuel cells [3] and batteries. [4] Due to the electrochemical and thermal stability of many RTILs, they have been investigated for their ability to support the electrochemistry of reactive metals (such as Na [5,6] and Li [7]) which are unstable in many traditional electrolytes.…”

The electrochemical cycling and electrodeposition of lead from 1-ethyl-3-methylimidazolium bis(trifluoromethanesulfonyl)imide ionic liquid

“…They further obtained comparable values of conductivity (~0.1 mS cm −1 at 150 °C) for lamellar samples of copolymers with similar compositions but different imidazolium alkyl groups; however, the ionic conductivity of copolymers could be related to the POIL composition and the corresponding morphology (0.01 mS cm −1 for 8.6 mol% POIL and 0.1 mS cm −1 for 17.0 mol% POIL at 150 °C). Díaz et al [ 127 ] …”

Task-Specific Ionic Liquids for Electrochemical Applications