- Coaxial electrospun sulfonated poly (ether ether ketone) proton exchange membrane for conductivity-strength balance
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- 论文类型: 期刊论文
- 发表时间: 2020-02-01
- 发表刊物: JOURNAL OF MEMBRANE SCIENCE
- 收录刊物: EI、SCIE
- 卷号: 595
- ISSN号: 0376-7388
- 关键字: Proton exchange membranes; Electrospinning; Proton conductivity; Sulfonated poly(ether ether ketone); Fuel cell
- 摘要: Coaxial electrospun strategy is proposed to resolve the typical conductivity-strength dilemma of proton exchange membrane and then improve performance of fuel cell. The advantages of co-electrospinning and effects of coaxial components are demonstrated through a simple design of co-electrospun nanofibers, i.e. sulfonated poly(ether ether ketone) with different degree of sulfonation for the core and shell components. The inner nozzle-wall provides extra electrostatic force and enhances microphase separation, as evidenced by the larger ionic clusters and ordered hydrophilic-hydrophobic domains through TEM and SAXS. As a result, the co-electrospun membranes even with the same degree of sulfonation as both the core and shell components exhibit 15.5% increase in proton conductivity and 8.3% decrease in swelling ratio at 80 degrees C as compared with the uni-electrospun membranes. The low degree of sulfonation core@high degree of sulfonation shell design endows the co-electrospun membranes with relatively high abilities of reinforce (about 51.6 MPa) and proton conduction (about 222.7 mS cm(-1) at 80 degrees C), which indicates the core layer control of strength and shell layer control of proton conduction in the co-electrospun membranes. The H-2/O-2 cell assembled with the coaxial electrospun membrane exhibits a power density of about 1.3 times that assembled with the commercial benchmark Nafion115.
