Polyelectrolyte Membranes(聚电解质膜)研究综述
Polyelectrolyte Membranes 聚电解质膜 - The selective permeability of organic matter and water shown by polyelectrolyte membranes in fuel cells and other applications provides ideas for solving this problem. [1] Polyelectrolyte membranes (PEMs) are a novel type of material that is in high demand in health, energy and environmental sectors. [2] The mobility of ethylene oxide segments and strength of polyelectrolyte membranes can be controlled by the cross-linking degree of single-ion conductive polyelectrolyte. [3] The aim of this research is the development of biopolymers-based polyelectrolyte membranes (PEMs) for application in the fuel cell. [4] Crosslinked poly(vinyl alcohol) (PVA) based composite films were prepared as polyelectrolyte membranes for low temperature direct ethanol fuel cells (DEFC). [5] By tuning the quaternization degree of polysulfone, a series of polyelectrolyte membranes with different size of ionic clusters were developed. [6] Therefore, such membranes may be used as polyelectrolyte membranes (PEM) in direct methanol fuel cell (DMFC). [7]聚电解质膜在燃料电池和其他应用中表现出的有机物和水的选择性渗透性 为解决这个问题提供了思路。 [1] 聚电解质膜 (PEM) 是一种新型材料,在健康、能源和环境领域的需求量很大。 [2] 环氧乙烷链段的迁移率和聚电解质膜的强度可以通过单离子导电聚电解质的交联度来控制。 [3] 本研究的目的是开发用于燃料电池的基于生物聚合物的聚电解质膜 (PEM)。 [4] 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。 [5] 通过调节聚砜的季铵化程度,开发了一系列具有不同大小离子簇的聚电解质膜。 [6] 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)。 [7]
direct methanol fuel 直接甲醇燃料
The functionalization strategy used herein can pave the way for the development of efficient polyelectrolyte membranes for applications in direct methanol fuel cells. [1]本文使用的功能化策略可以为开发用于直接甲醇燃料电池的高效聚电解质膜铺平道路。 [1]