期刊
ACS APPLIED MATERIALS & INTERFACES
卷 4, 期 3, 页码 1783-1790出版社
AMER CHEMICAL SOC
DOI: 10.1021/am300031k
关键词
protic ionic liquid; sulfonated polyimide; composite membrane; nonhumidifying fuel cell; ionic conductivity; morphology
资金
- MEXT of Japan [452/17073009, A/23245046]
- NEDO Technology Research Grant
- Grants-in-Aid for Scientific Research [23245046] Funding Source: KAKEN
To investigate the effects of polymer structure on the properties of composite membranes including a protic ionic liquid, [dema][TfO] (diethylmethylammonium trifluoromethanesulfonate), for nonhumidified fuel cell applications, we synthesized sulfonated polyimides (SPIs) with different structures as matrix polymers, which have different magnitudes of ion-exchange capacities (IECs), different sequence distributions of ionic groups, and positions of sulfonate groups in the main chain or side chain. Despite having similar IECs, multiblock copolymer SPI and random copolymer SPI having sulfonate groups in the side chain exhibit higher ionic conductivity than random copolymer SPI having sulfonate groups in the main chain, indicating that the flexibility of sulfonic acid groups and the sequence distribution of ionic groups greatly affect the ion conduction. Atomic force microscopy observation revealed that the multiblock copolymer SPI forms more developed phase separation than the others. These results indicate that the flexibility of sulfonic acid groups and the connectivity of the ion conduction channel, which greatly depends on the sequence distribution, affect the ion conduction.
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