Chemosensors (Sep 2014)

Photonic Crystal-Based Sensing and Imaging of Potassium Ions

  • Christoph Fenzl,
  • Michael Kirchinger,
  • Thomas Hirsch,
  • Otto S. Wolfbeis

DOI
https://doi.org/10.3390/chemosensors2030207
Journal volume & issue
Vol. 2, no. 3
pp. 207 – 218

Abstract

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We report on a method for selective optical sensing and imaging of potassium ions using a sandwich assembly composed of layers of photonic crystals and an ion-selective membrane. This represents a new scheme for sensing ions in that an ionic strength-sensitive photonic crystal hydrogel layer is combined with a K+-selective membrane. The latter consists of plasticized poly(vinyl chloride) doped with the K+-selective ion carrier, valinomycin. The film has a red color if immersed into plain water, but is green in 5 mM KCl and purple at KCl concentrations of 100 mM or higher. This 3D photonic crystal sensor responds to K+ ions in the 1 to 50 mM concentration range (which includes the K+ concentration range encountered in blood) and shows high selectivity over ammonium and sodium ions. Sensor films were also imaged with a digital camera by exploiting the RGB technique.

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