화학공학소재연구정보센터
Journal of Physical Chemistry B, Vol.117, No.21, 6558-6565, 2013
Multinuclear Solid State Nuclear Magnetic Resonance Investigation of Water Penetration in Proton Exchange Membrane Nafion-117 by Mechanical Spinning
H-1, O-17, and F-19 solid state NMR spectroscopies have been used to investigate water penetration in Nafion-117 under mechanical spinning. It is found that both H-1 and O-17 spectra depend on the orientation of the membrane with respect to the magnetic field. The intensities of the side chain F-19 spectra depend slightly on the orientation of membrane with respect to the magnetic field, but the backbone F-19 spectra do not exhibit orientation dependence. By analyzing the orientation dependent H-1 and O-17 spectra and time-resolved H-1 spectra, we show that the water loaded in Nafion-117, under high spinning speed, may penetrate into regions that are normally inaccessible by water. Water penetration is enhanced as the spinning speed is increased or the spinning time is increased. In the meantime, mechanical spinning accelerates water exchange. It is also found that water penetration by mechanical spinning is persistent; i.e., after spinning, water remains in those newly found regions. While water penetration changes the pores and channels in Nafion, F-19 spectra indicate that the chemical environments of the polymer backbone do not show change. These results provide new insights about the structure and dynamics of Nafion-117 and related materials. They are relevant to proton exchange membrane aging and offer enlightening points of view on antiaging and modification of this material for better proton conductivity. It is also interesting to view this phenomenon in the perspective of forced nanofiltration.