Water Dynamics in Semi-IPN Porous Membrane for Fuel Cells

机译：燃料电池用半IPN多孔膜中的水动力学

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Water diffusion and dynamic motion within the confined sPEEK channel are examined. To produce materials with different channel dimension, sPEEK/hyper branch mBMI membrane are prepared by in-situ polymerization. NMR Ti and T2 relaxation time measurements are employed to understand the dynamic behavior of water at low (X=2-3) medium (>.=4-8) and high (^=14-20) water uptake in these membranes. At fully saturated extreme, the activation energy is found to be higher (30 to 40 kJ/mole) than that of the bulk water (20 to 30 kj/mole). This is due to the fact that water diffusion occurs in the constraint channel, thus experiencing higher viscosity. On the other hand, at low water uptake, the water migration activation energy is lower than that of the bulk or in the fully saturated sample. This suggests the proton motion involves the relay motion of interconnected hydrogen boding network formed between the sulfonated/ amine group of mBMI with the residue water.

机译：检查了受限的sPEEK通道内的水扩散和动态运动。为了生产具有不同通道尺寸的材料，可通过原位聚合制备sPEEK /超支mBMI膜。使用NMR Ti和T2弛豫时间测量来了解这些膜在低（X = 2-3）介质（>。= 4-8）和高（^ = 14-20）吸水时水的动态行为。在完全饱和的极端条件下，发现活化能（30至40 kJ / mole）比散装水（20至30 kj / mole）高。这是由于以下事实：水在约束通道中发生扩散，因此具有较高的粘度。另一方面，在低吸水率下，水迁移活化能低于整体或完全饱和样品中的水。这表明质子运动涉及在mBMI的磺化/胺基与残留水之间形成的相互连接的氢键网络的中继运动。

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《Measurement and diagnostics for energy systems》|2009年|p.1-10|共10页
会议地点 San Francisco CA(US);San Francisco CA(US)
作者
Peter P. Chu; C.S. Wu; B.J. Liu; J.S. Wang; J. P. Pan;
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Department of Chemistry, National Central University, No. 300, Jhongda Rd., Jhongli City, Taoyuan County 32001, Taiwan (R.O.C.);

Department of Chemistry, National Central University, No. 300, Jhongda Rd., Jhongli City, Taoyuan County 32001, Taiwan (R.O.C.);

Material and Chemical Research Laboratory, Industrial Technology Research Institute (1TRI) , Hsin-Chu, Taiwan (R.O.C.);

Material and Chemical Research Laboratory, Industrial Technology Research Institute (1TRI) , Hsin-Chu, Taiwan (R.O.C.);

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中图分类独立电源技术（直接发电）;
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Water Dynamics in Semi-IPN Porous Membrane for Fuel Cells

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