Energy-Dispersive and X-Ray Photoelectron Spectroscopy and Electron Microscopy of New Quininium-Plastic Membrane Electrodes

Adel F. Shoukry, Hayat M. Maraffie, Laila A. Al-Shatti
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引用次数: 2

Abstract

New quininium (Qn) plastic membrane electrodes of the conventional type were constructed and characterized. They are based on incorporation of Qn-reineckate (QnRn) ion-pair, Qn-phosphotungstate (Qn3-PT), or Qn-phosphomolybdate (Qn3PM) ion associate into a poly(vinyl chloride) membrane. The electrodes are selective for Qn and have been successfully used for the determination of Qn2SO4 in pharmaceutical tablets. Nevertheless, they showed, as almost all other ion-selective electrodes, limited life times. Energy dispersive- (EDS) and X-ray photoelectron spectroscopy (XPS), as well as electron microscopy were applied to investigate the cause of this limitation in the life times of the electrodes. The results indicated that the electrodes lose their activity after prolonged soaking as a result of leaching of the ion exchanger from the membranes into the test solution in addition to deformation at the surface of the expired electrode.

新型奎宁-塑料膜电极的能量色散、x射线光电子能谱和电子显微镜
构造并表征了传统的新型奎宁(Qn)塑料膜电极。它们是基于将qn - reeckate (QnRn)离子对、qn -磷钨酸盐(Qn3-PT)或qn -磷钼酸盐(Qn3PM)离子结合到聚(氯乙烯)膜中。该电极对Qn具有选择性,已成功用于片剂中Qn2SO4的测定。然而,和几乎所有其他离子选择性电极一样,它们的寿命有限。利用能量色散(EDS)和x射线光电子能谱(XPS)以及电子显微镜研究了电极寿命限制的原因。结果表明,在长时间浸泡后,由于离子交换剂从膜中浸出到测试溶液中,以及过期电极表面的变形,电极失去了活性。
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