Study of the incorporation of protic ionic liquids into hydrophilic and hydrophobic rigid-rod elastomeric polymers

Tigelaar, Dean M.; Waldecker, James; Peplowski, Katherine M.; Kinder, James D.

doi:10.1016/j.polymer.2006.04.014

Cited by 40 publications

(23 citation statements)

References 36 publications

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“…This domain has since aroused a great deal of interest with a view to application in HT-PEMFCs [5][6][7][8][9][10][11][12][13][14][15][16][17][18][19].…”

Section: Introductionmentioning

confidence: 99%

Proton-conducting ionic liquid-based Proton Exchange Membrane Fuel Cell membranes: The key role of ionomer–ionic liquid interaction

Martinez

Molméret

Cointeaux

et al. 2010

Journal of Power Sources

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“…This domain has since aroused a great deal of interest with a view to application in HT-PEMFCs [5][6][7][8][9][10][11][12][13][14][15][16][17][18][19].…”

Section: Introductionmentioning

confidence: 99%

Proton-conducting ionic liquid-based Proton Exchange Membrane Fuel Cell membranes: The key role of ionomer–ionic liquid interaction

Martinez

Molméret

Cointeaux

et al. 2010

Journal of Power Sources

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“…This can be achieved either by swelling a dense polymeric membrane by a CLIP [21][22][23], by filling a macroporous membrane with the CLIP, or by grafting one component of the CLIP on the polymer backbone.…”

Section: Introductionmentioning

confidence: 99%

Ion transport in CLIP: Investigation through conductivity and NMR measurements

Iojoiu

Judeinstein²,

Sanchez³

2007

Electrochimica Acta

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“…A large elongation at break, above 400%, was obtained for a membrane thickness of 50¯m, which is superior to the values of 200300% reported for Nafion. 35),36) The tensile strength of this composite membrane was measured to be 2.8 MPa, which is less than the value of about 10 MPa measured for Nafion; however, this composite membrane was sufficiently strong, allowing it to be fabricated into membrane electrode assemblies (MEAs).…”

Section: Proton Conduction In Acceptor-doped Snp 2 Omentioning

confidence: 92%

Intermediate-temperature proton conductors and their applications to energy and environmental devices

Hibino

2011

J. Ceram. Soc. Japan

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The development of proton conductors has proceeded rapidly in recent years. A number of organic or inorganic materials show proton conductivities of ³10 ¹2 S cm ¹1 at temperatures below 100°C. However, although there is great current demand for proton conductors capable of operating in the temperature range of 100400°C in practical applications, very few materials that can satisfy this demand have been reported to date. Acceptor-doped SnP 2 O 7 are promising candidate materials because their proton conductivities reach >10 ¹1 S cm ¹1 in the temperature range of interest. This paper presents an overview of the current status of acceptor-doped SnP 2 O 7 , highlighting the mechanism and kinetics of proton conduction and the development of electrochemical devices using these materials. New insights for proton insertion and conduction are proposed that use electrochemical techniques. Two approaches to designing SnP 2 O 7 -based composite electrolytes with good mechanical properties have also been developed for different operating temperatures. In addition, the benefits of intermediate-temperature operation using these materials are discussed in terms of practical applications, especially in fuel cells, exhaust sensors, and solid catalysts.

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Study of the incorporation of protic ionic liquids into hydrophilic and hydrophobic rigid-rod elastomeric polymers

Cited by 40 publications

References 36 publications

Proton-conducting ionic liquid-based Proton Exchange Membrane Fuel Cell membranes: The key role of ionomer–ionic liquid interaction

Proton-conducting ionic liquid-based Proton Exchange Membrane Fuel Cell membranes: The key role of ionomer–ionic liquid interaction

Ion transport in CLIP: Investigation through conductivity and NMR measurements

Intermediate-temperature proton conductors and their applications to energy and environmental devices

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