1) methanol permeation
醇透
2) methanol crossover
甲醇透过
3) methanol permeability
甲醇透过性
1.
Fourier transform infrared attenuated total reflection(FTIR-ATR) spectra,proton conductivity,methanol permeability and morphology of samples were studies.
磺化二氮杂萘酮结构的聚醚酮(SPPEK)与磷钨酸(PWA)的混合膜用两组分的DMAc混合溶液通过刮膜制备,对SPPEK/PWA膜进行了FTIR-ATR、表面形貌、质子导电性和甲醇透过性进行了研究。
4) Methanol permeability
甲醇透过率
1.
The effects of curing temperature, methanol concentration and membrane composition on the ionic conductivity and the methanol permeability of the membranes were investigated.
制备了聚乙烯醇 (PVA)与聚苯乙烯磺酸 (PSSA)的共混膜 ,并研究了膜的组成、热处理温度、甲醇水溶液浓度等对膜电导率和甲醇透过率的影响。
5) methanol permeability
甲醇透过系数
1.
The PES/SPEEK membranes water uptake,swelling degree and methanol permeability decrease collectively as PES content increases.
所制备PES/SPEEK共混膜的含水率、溶胀度和甲醇透过系数均随PES含量的增加而降低。
2.
Both SPES and PES/SPES blend membranes had low methanol permeability and high proton conductivity indicating these membranes are excellent candidate membrane materials for direct methanol fuel cells (DMFCs) applications.
SPES膜在室温下的电导率和甲醇透过系数随着磺化度的增大而增大。
补充资料:一透都透
1.犹言一通百通。谓一理既明,众理皆可贯通。
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