The control and optimization of macro/micro-structure of ion
发布时间:2021-02-22 07:27
Ion conductive membranes(ICMs)are frequently used as separators for energy conversion and storage technologies of fuel cells,flow battery,and hydrogen pump,because of their good ion-selective conduction and low electronic conductivity.Firstly,this feature article reviews the recent studies on the development of new nonfluorinated ICMs with low cost and their macro/micro-structure control.In general,these new nonfluorinated ICMs have lower conductivity than commercial perfluorinated ones,due to t...
【文章来源】:Chinese Journal of Chemical Engineering. 2016,24(05)
【文章页数】:14 页
【文章目录】:
1. Applications of Ion Conductive Membranes in Energy Conversion and Storage Devices
2. Molecular Design and Synthesis of ICM Materials
2.1. Proton exchange membranes
2.2. Anion exchange membranes
3. Macro/Micro-structure Control
3.1. Covalent crosslinking
3.2. Semi-interpenatrating polymer network(s IPN)
3.3. Blending
4. Macro/Micro-structure Optimization
4.1. Long side chain
4.2. Multiple functionalization
4.3. Small molecule inducing micro-phase separation
4.4. Electrospun nano#ber
4.5. Organic–inorganic hybrid
4.6. Multilayer composite
5. Conclusions
【参考文献】:
期刊论文
[1]Alkaline polymer electrolyte fuel cells: Principle, challenges, and recent progress[J]. TANG DaoPing, PAN Jing, LU ShanFu, ZHUANG Lin* & LU JunTao Hubei Key Lab of Electrochemical Power Sources; College of Chemistry and Molecular Sciences, Wuhan University, Wuhan 430072, China. Science China(Chemistry). 2010(02)
本文编号:3045662
【文章来源】:Chinese Journal of Chemical Engineering. 2016,24(05)
【文章页数】:14 页
【文章目录】:
1. Applications of Ion Conductive Membranes in Energy Conversion and Storage Devices
2. Molecular Design and Synthesis of ICM Materials
2.1. Proton exchange membranes
2.2. Anion exchange membranes
3. Macro/Micro-structure Control
3.1. Covalent crosslinking
3.2. Semi-interpenatrating polymer network(s IPN)
3.3. Blending
4. Macro/Micro-structure Optimization
4.1. Long side chain
4.2. Multiple functionalization
4.3. Small molecule inducing micro-phase separation
4.4. Electrospun nano#ber
4.5. Organic–inorganic hybrid
4.6. Multilayer composite
5. Conclusions
【参考文献】:
期刊论文
[1]Alkaline polymer electrolyte fuel cells: Principle, challenges, and recent progress[J]. TANG DaoPing, PAN Jing, LU ShanFu, ZHUANG Lin* & LU JunTao Hubei Key Lab of Electrochemical Power Sources; College of Chemistry and Molecular Sciences, Wuhan University, Wuhan 430072, China. Science China(Chemistry). 2010(02)
本文编号:3045662
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