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1)  proton-conducting membrane
质子传导膜
1.
A membrane electrode assembly (MEA) for H2S solid oxide fuel cells with inorganic proton-conducting membranes was prepared.
制备了硫化氢固体氧化物燃料电池的无机质子传导膜和膜-电极-组装(MEA)。
2.
The fabrication and performance of proton-conducting membranes utilized in a hydrogen sulfide fuel cell were investigated.
研究了H2S燃料电池用的质子传导膜的制备及性能,考察了不同的Li2SO4与填充物Al2O3的匹配、微量元素B(H3BO3)的掺杂对膜及电池性能影响。
3.
Composite proton-conducting membranes with Li2SO4 as the substrate and with Al2O3 as the packing were fabricated,and the electrochemical impedance spectroscopy(EIS) was employed to investigate the ion conductivity of the composite membranes with different components(Li2WO4 or Na2SO4),dosages and thicknesses.
制备了以Li2SO4为基体、A l2O3为填充物的复合质子传导膜
2)  proton conducting membrane
质子传导膜
1.
Three various proton conducting membranes for H2S solid oxide fuel cells, such as Li2SO4+Al2O3, Li2SO4+Na2SO4+Al2O3 and Li2SO4+Li2WO4+Al2O3, were fabricated by the conventional route (designated micro-composite sample) and a new technique (nano-composite sample prepared by gel-solution method), respectively.
采用传统工艺制备了微米级与采用溶胶-凝胶法制备了纳米级Li2SO4+Al2O3、Li2SO4+Na2SO4+Al2O3和Li2SO4+Li2WO4+Al2O3三种不同的H2S固体氧化物燃料电池质子传导膜,并用扫描电镜(SEM)对膜进行了表征,纳米膜的结构较致密和紧凑,性能较好。
3)  proton conductive membrane
质子传导膜
1.
As one of the most important function materials in VRB,proton conductive membrane has been deeply researched.
质子传导膜作为该电池内的重要功能材料之一,目前已得到广泛的研究。
2.
As one of the most important function materials in VRB,a novel proton conductive membrane with interpenetration network(IPN) structure of polymer chains was proposed in this study to meet the requirement of high conductivity,selectivity,and chemical stability.
全钒液流电池是一种适用于太阳能、风能发电过程的大规模蓄电储能设备,高电导性、高选择性的质子传导膜是该电池的重要组件之一。
4)  membrane proton conduction
膜质子传导
5)  proton conductivity
质子传导
6)  Proton conduction
质子传导
1.
It suggests that this dense material exhibits excellent proton conduction at high temperature in atmosphere contained hydrogen.
发现该种材料在高温氢气氛中有较好的质子传导性,施加电压及氢分压改变对质子传导性影响显著,流速对之影响在低温区不明显,但在高温区影响较大。
补充资料:“质子-电子偶极-偶极”质子弛豫增强


“质子-电子偶极-偶极”质子弛豫增强


  物理学术语。原子核外层中不成对的电子质量小,但磁动性很强,可使局部磁场波动增强,促使氢质子弛豫加快,从而使T1和T2缩短,这种效应即为PEDDPRE。过渡元素和镧系元素大部分在d和f轨道有多个不成对电子,所以其离子往往具有PEDDPRE,可用来作顺磁性对比剂,如钆(Gd)。Gd在外层有7个不成对电子,具有很强的顺磁性。
  
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