Author:

Keywords:

Science & Technology, Physical Sciences, Technology, Chemistry, Analytical, Electrochemistry, Instruments & Instrumentation, Chemistry, Metal-dipyrromethene platform, Cyclopeptide receptor, Surface structure, Electrochemical anion sensing, Aqueous media, SELF-ASSEMBLED MONOLAYERS, ANION RECOGNITION, MOLECULAR RECOGNITION, RECEPTORS, WATER, BINDING, SENSOR, SELECTIVITY, FERROCENE, AFFINITY, 0205 Optical Physics, 0301 Analytical Chemistry, 0912 Materials Engineering, Analytical Chemistry, 3401 Analytical chemistry, 4004 Chemical engineering, 4016 Materials engineering

Abstract:

© 2019 An electrochemical sensor comprising a cyclopeptide connected to the surface of a gold electrode via a bis(dipyrromethene) Cu(II) or Co(II) complex allows detection of sulfate in water. This sensor displays high selectivity and sensitivity at the pM level of the target anion, rendering it potentially useful for environmental monitoring. Importantly, since electrochemical anion sensing relies on the redox properties of the metal centers embedded between the anion-binding cyclopeptide and the electrode surface, no addition of an external redox marker to the sample solution is required. The elimination of the external redox marker improved sensor sensitivity and possibility for its miniaturisation. These parameters are important for possible application in environmental monitoring. The structure and properties of the sensor were characterized by a combination of electrochemical methods, atomic force microscope as well as contact angle measurements. The mechanism of sensing mode was proposed and discussed.