Acid–Base Properties of Nanoconfined Volumes of Anodic Aluminum Oxide Pores by EPR of pH-Sensitive Spin Probes

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• 作者：Elena G. Kovaleva ; Leonid S. Molochnikov ; Umamaheswari Venkatesan ; Antonin Marek ; Darya P. Stepanova ; Ksenia V. Kozhikhova ; Maxim A. Mironov ; Alex I. Smirnov
• 刊名：Journal of Physical Chemistry C
• 出版年：2016
• 出版时间：February 11, 2016
• 年：2016
• 卷：120
• 期：5
• 页码：2703-2711
• 全文大小：451K
• ISSN：1932-7455

文摘

Anodic aluminum oxide (AAO) ceramic membranes with macroscopically aligned and hexagonally packed nanopore architecture are attractive substrates for forming nanotubular lipid bilayers as well as sorption and catalytic media because of a tunable pore diameter, robust pore structure, and low fabrication cost. Here we employed continuous wave X-band (9 GHz) EPR of two pH-sensitive nitroxide radicals to assess acid–base properties AAO membranes prepared from low-cost commercial grade aluminum and compared those with commercial Anodisc membranes from Whatman, Ltd. The AAO membranes with pore diameters ≥58 ± 8 nm showed essentially the same pH inside the pores, pH<sub>intsub>, as the bulk external solution, pH<sub>extsub>, over the 0.1–3.0 M range of ionic strength. However, the apparent pK<sub>asub> of nitroxide probes inside the pores deviated from the bulk values for the nanopores of smaller diameters of ca. 29 and 18 nm. Specifically, for the latter nanopores the values of pH<sub>intsub> were found to be 0.5–0.8 pH unit lower than the bulk pH<sub>extsub>. An increase in acidity of the bulk solution led to a steady decrease of the negative charge on inner surface of the 38 nm nanopores and its recharge from a negative to a positive value at pH 4.7 ± 0.1, corresponding to the point of zero charge (pzc). Overall, the EPR titration method described here could assist in characterization of meso- and nanoporous membranes for catalytic and sorption applications as well as act a support medium for self-assembled biomembrane systems.