质子
电导率
化学
介孔材料
金属有机骨架
微观结构
导电体
化学工程
Nafion公司
氢
金属
沸点
质子输运
质子交换膜燃料电池
纳米技术
无机化学
膜
催化作用
有机化学
复合材料
电极
电化学
材料科学
物理化学
吸附
量子力学
工程类
生物化学
结晶学
物理
作者
В. Г. Пономарева,Konstantin A. Kovalenko,Alexei P. Chupakhin,Danil N. Dybtsev,Е. С. Шутова,Vladimir P. Fedin
摘要
The extensive implementation of hydrogen-powered technology today is limited by a number of fundamental problems related to materials research. Fuel-cell hydrogen conversion technology requires proton-conducting materials with high conductivity at intermediate temperatures up to 120 °C. The development of such materials remains challenging because the proton transport of many promising candidates is based on extended microstructures of water molecules, which deteriorate at temperatures above the boiling point. Here we show the impregnation of the mesoporous metal-organic framework (MOF) MIL-101 by nonvolatile acids H(2)SO(4) and H(3)PO(4). Such a simple approach affords solid materials with potent proton-conducting properties at moderate temperatures, which is critically important for the proper function of on-board automobile fuel cells. The proton conductivities of the H(2)SO(4)@MIL-101 and H(3)PO(4)@MIL-101 at T = 150 °C and low humidity outperform those of any other MOF-based materials and could be compared with the best proton conductors, such as Nafion.
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