2010
DOI: 10.1016/j.jpowsour.2009.11.045
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Fabrication of protic ionic liquid/sulfonated polyimide composite membranes for non-humidified fuel cells

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Cited by 157 publications
(116 citation statements)
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“…Hence, the proton transference numbers t + of about 0.5 are the rule rather than the exception. [32][33][34] As discussed by Yasuda et al, 35 t + values smaller than 1 not only reduce proton conductivity, but also cause additional polarization through the buildup of concentration gradients in the electrolyte. In a protic electrolyte, the proton charge transfer may, in principle, take place through two mechanisms:…”
Section: Journal Of the Electrochemical Society 163 (2) F25-f37 (2016)mentioning
confidence: 95%
See 1 more Smart Citation
“…Hence, the proton transference numbers t + of about 0.5 are the rule rather than the exception. [32][33][34] As discussed by Yasuda et al, 35 t + values smaller than 1 not only reduce proton conductivity, but also cause additional polarization through the buildup of concentration gradients in the electrolyte. In a protic electrolyte, the proton charge transfer may, in principle, take place through two mechanisms:…”
Section: Journal Of the Electrochemical Society 163 (2) F25-f37 (2016)mentioning
confidence: 95%
“…• C. [31][32][33][37][38][39][40][41][42][43][44][45][46] Most of these PILS consist of protonated cations of large organic bases, e.g. imidazole 33 40 Principally, the PILs can be either absorbed by a porous matrix (analogous to phosphoric acid in PAFCs) or immobilized in a (polymer) membrane (application in PEFCs).…”
Section: Journal Of the Electrochemical Society 163 (2) F25-f37 (2016)mentioning
confidence: 99%
“…6). 45,60,[63][64][65] The obtained polymer electrolyte membranes are mechanically reliable even at a high doping of [dema][TfO], making it possible to construct polymer electrolyte fuel cells that can operate under non-humidified conditions and at temperatures greater than 100°C. 64 The maximum current density and maximum power density of these fuel cells reach 400 mA cm ¹2 and 150 mW cm ¹2 , respectively, at 120°C under non-humidified conditions.…”
Section: H © -Conducting Protic Ils and Fuel Cellsmentioning
confidence: 99%
“…Ionic liquids like BMIMBF 4 or BMIMPF 6 and PyBF 4 were also mixed with organic solvents for the use of batteries such as butyrolactone and acetonitrile (Diaw et al, 2005). In recently studies (Lee et al, 2010), Lithium salt (LiBF 4 or LiPF 6 ) was added to the ionic liquids mixtures for possible application in the field of energy storage (batteries or supercapacitors), electrolytes are stable toward oxidation and exhibit a vitreous phase transition. RTILs have also been widely used in fuel cells.…”
Section: Batteries and Fuel Cellsmentioning
confidence: 99%