Fullerene composite proton conducting membranes for polymer electrolyte fuel cells operating under low humidity conditions

Tasaki, Ken; DeSousa, Ryan; Wang, Hengbin; Gasa, Jeffrey; Venkatesan, A.; Pugazhendhi, Perumal; Loutfy, Raouf O.

doi:10.1016/j.memsci.2006.04.052

Cited by 74 publications

(37 citation statements)

References 31 publications

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“…Graphene oxide (GO) nanosheets exfoliated from graphite have been widely used in supercapacitors, sensors and fuel cells [6][7][8][9]. GO, the oxidized form of graphene, is expected to be free of electrical conductivity for its randomly allocated nonconductive sp 3 carbon sites [10].…”

Section: Introductionmentioning

confidence: 99%

Orderly sandwich-shaped graphene oxide/Nafion composite membranes for direct methanol fuel cells

Wang

Lai

Lin

et al. 2015

Journal of Membrane Science

108

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Section: Introductionmentioning

confidence: 99%

Orderly sandwich-shaped graphene oxide/Nafion composite membranes for direct methanol fuel cells

Wang

Lai

Lin

et al. 2015

Journal of Membrane Science

108

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“…Tasaki et al 180 modified the Nafion 1 117 membranes with fullerene C 60 and fullerenol C 60 (OH) 12 . The modified membranes had higher proton conductivities and held more water than the parent Nafion membranes, especially at low RH < 50%.…”

Section: Iii2b Fuel Cellsmentioning

confidence: 99%

Fullerene derivatives as nano-additives in polymer composites

Penkova¹,

Acquah²,

Piotrovskiy³

et al. 2017

Russ. Chem. Rev.

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“…Nanocarbon materials are also used as additives to the Nafion proton-exchange membranes: a mixture of fullerene and fulerenol 102 , carbon nanotubes 103 . Such membranes compared to the initial material more tightly retained water and showed higher conductivity under low humidity.…”

Section: Composite Materials For Polymer Electrolytesmentioning

confidence: 99%

Proton-Exchange Membranes Based on Sulfonated Polymers

Sedesheva¹,

Ivanov²,

Wozniak³

et al. 2016

Orient. J. Chem

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Review is dedicated to discussion of different types of proton-exchange membranes used in fuel cells (FC). One of the most promising electrolytes is polymer electrolyte membrane (PEM). In recent years, researchers pay great attention to various non-fluorinated or partially fluorinated hydrocarbon polymers, which may become a real alternative to Nafion. Typical examples are sulfonated polyetheretherketones, polyarylene ethers, polysulphones, polyimides. A class of polyimides-based hydrocarbon proton-exchange membranes is separately considered as promising for widespread use in fuel cell, such membranes are of interest for our further experimental development.

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Fullerene composite proton conducting membranes for polymer electrolyte fuel cells operating under low humidity conditions

Cited by 74 publications

References 31 publications

Orderly sandwich-shaped graphene oxide/Nafion composite membranes for direct methanol fuel cells

Orderly sandwich-shaped graphene oxide/Nafion composite membranes for direct methanol fuel cells

Fullerene derivatives as nano-additives in polymer composites

Proton-Exchange Membranes Based on Sulfonated Polymers

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