1) YSZ-Al 2O 3 electrolyte membrane tubes
YSZAl2O3电解质膜管
2) YSZ electrolyte membrane tubes
YSZ电解质膜管
3) electrolyte membrane
电解质膜
1.
Properties of doping polymer electrolyte membranes;
掺杂聚合物电解质膜性能
2.
The humidity of PEMFC electrolyte membrane strongly influences its performance.
质子交换膜燃料电池电解质膜的湿度对其性能有非常大的影响。
3.
The mechanism for electrocatalytic oxidation of ethanol on platinum,anode electrocatalysts for DEFC,electrolyte membranes and their improvements,the fuel cell performances and their influence factors we.
综述了乙醇在Pt上氧化的电催化机理,直接乙醇燃料电池(DEFC)的阳极电催化剂,电解质膜及其改性,电池性能及其影响因素,并对分别采用纯氢、甲醇和乙醇作为燃料的PEMFC、DMFC和DEFC三种燃料电池进行了对比,阳极电催化剂和电解质膜的研究改进是今后DEFC的工作重点。
4) electrolyte film
电解质膜
1.
The stability and hygroscopicity of the electrolyte film and its conductivity changing with its constitution and temperature have been studied in the paper.
本文采用聚乙二醇(PEG)和环氧树脂/三乙烯四胺凝胶组成互穿聚合物网络(IPN),制备了IPN——ZnCl2高分子固体电解质膜,讨论了IPN的成因和电解质膜的电导率随组成、温度的变化及其膜稳定性和吸水性。
2.
The research progress of all solid state thin film lithium battery was summarized and its configuration, principle, fabrication methods were introduced, and the research progress of cathode and anode film and electrolyte film was presented as well.
综述了全固态薄膜锂蓄电池国内外研究状况,介绍了全固态薄膜锂蓄电池的结构、工作原理及制备方法,并对全固态薄膜锂蓄电池的正负极膜及电解质膜研究情况作了详细的阐述。
3.
Various technologies for preparing cathode film, anode film and electrolyte film for thin film lithium battery are reviewed.
概述了国际上目前制备薄膜锂电池的阴极膜、阳极膜和电解质膜过程中所采用的各种工艺手段 ,从工作原理、采用的材料与设备、得到的膜的物理化学性能等各个方面对这些工艺方法进行了分析、比较及评
5) electrolyte film
电解质薄膜
1.
The preparation of high quality YSZ electrolyte film, thin but gas-tight, on porous cathode or anode is crucial to the fabrication of SOFC.
SOFC制备的关键技术之一是获得足够薄且不透气的YSZ电解质薄膜。
2.
Effects of the heat-treating temperature of green films and the number of spinning on the performance of electrolyte films are investigated.
3mol%YB2BOB3B掺杂的ZrOB2B(3Y-TZP)的机械强度高于YSZ,以3Y-TZP为原料可以增加电解质薄膜的强度和电池的可靠性,但是它的离子电导率低于YSZ。
6) polymer electrolyte membrane
聚电解质膜
1.
The aim of this work is to modify PPEK by means of sulfonation, chloromethylation/quaternization, doping sulfonated PPEK with inorganic particles such as cesium hydrogen sulfate (CS), zirconium hydrogen phosphate hydrate (ZrP) and 12-phosphotungstic acid (PWA), to prepare polymer electrolyte membranes (PEM) for fuel cells, and to stu.
研究了燃料电池用聚电解质膜制备及其结构与性能的关系。
补充资料:电解食盐水溶液离子膜电解槽所用的膜材料之一
分子式:
CAS号:
性质:又称全氟羧酸-磺酸复合离子膜 Rf-COOH-Rf-SO3H 电解食盐水溶液离子膜电解槽所用的膜材料之一。使用时,将较薄的羧酸层面向阴极,较厚的磺酸层面向阳极,因而兼有羧酸膜和磺酸膜的优点。由于Rf-COOH层的存在,可阻挡氢氧离子返迁移到阳极室,确保了高的电流效率(96%),因Rf-SO3层的电阻低,能在高电流密度下运行,且阴极液可用盐酸中和,产品氯气中氧含量低,氢氧化钠浓度可达33%~35%。可在全氟磺酸膜上涂敷一层全氟羧酸的聚合物,或是将磺酸膜和羧酸膜进行层压,或是采用化学方法处理而制得的复合膜。现以采用化学方法处理者质量最佳。
CAS号:
性质:又称全氟羧酸-磺酸复合离子膜 Rf-COOH-Rf-SO3H 电解食盐水溶液离子膜电解槽所用的膜材料之一。使用时,将较薄的羧酸层面向阴极,较厚的磺酸层面向阳极,因而兼有羧酸膜和磺酸膜的优点。由于Rf-COOH层的存在,可阻挡氢氧离子返迁移到阳极室,确保了高的电流效率(96%),因Rf-SO3层的电阻低,能在高电流密度下运行,且阴极液可用盐酸中和,产品氯气中氧含量低,氢氧化钠浓度可达33%~35%。可在全氟磺酸膜上涂敷一层全氟羧酸的聚合物,或是将磺酸膜和羧酸膜进行层压,或是采用化学方法处理而制得的复合膜。现以采用化学方法处理者质量最佳。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条