Polyelectrolyte Membrane(聚电解质膜)研究综述
Polyelectrolyte Membrane 聚电解质膜 - Crosslinked poly(vinyl alcohol) (PVA) based composite films were prepared as polyelectrolyte membranes for low temperature direct ethanol fuel cells (DEFC). [1] Herein we described the development of various components of fuel cell along with the process such as polyelectrolyte membrane of PEMFC and DMFC, bipolar plate and steam reforming methane with inorganic membrane in BPPT. [2] In this study, a novel kind of polyelectrolyte membrane, quaternary ammonium polysulfone with interconnected ionic clusters, is prepared to enhance the CO2 permeability. [3] In conclusion, these layered silicates based conductive films have the potential to act as a polyelectrolyte membrane for fuel cell energy devices. [4] Moreover, the electrochemical properties of the membrane were investigated via ion exchange capacity for the purpose of using it as a polyelectrolyte membrane. [5] Therefore, such membranes may be used as polyelectrolyte membranes (PEM) in direct methanol fuel cell (DMFC). [6] Such a connection can also be expected in polyelectrolyte membranes similar to Nafion. [7] Then, the prepared PDDA@MoS2 nanosheets was introduced into polyelectrolyte membrane through LbL self-assembled method to get an organic/inorganic composite NF membrane with ceramic tube as substrate. [8]制备了基于交联聚乙烯醇 (PVA) 的复合薄膜作为低温直接乙醇燃料电池 (DEFC) 的聚电解质膜。 [1] 在此,我们描述了燃料电池各种组件的发展以及 PEMFC 和 DMFC 的聚电解质膜、双极板和 BPPT 中的无机膜蒸汽重整甲烷等工艺。 [2] 在这项研究中,制备了一种新型聚电解质膜,即具有相互连接的离子簇的季铵聚砜,以提高 CO2 的渗透性。 [3] 总之,这些基于层状硅酸盐的导电薄膜具有用作燃料电池能源装置的聚电解质膜的潜力。 [4] 此外,为了将其用作聚电解质膜,通过离子交换容量研究了膜的电化学性能。 [5] 因此,这种膜可以用作直接甲醇燃料电池(DMFC)中的聚电解质膜(PEM)。 [6] 在类似于 Nafion 的聚电解质膜中也可以预期这种连接。 [7] 然后,将制备的PDDA@MoS2纳米片通过LbL自组装法引入聚电解质膜中,得到以陶瓷管为基材的有机/无机复合纳滤膜。 [8]