Formation of controllable pH gradients inside microchannels by using light-addressable electrodes

Formation of controllable pH gradients inside microchannels by using light-addressable electrodes

•pH-gradient generation inside microchannels.•Light-addressable electrodes for flexible pH-gradient generation.•Influence of the applied potential and light-source parameters. Understanding the influence of the pH value towards microenvironments of bioanalytical systems, especially inside lab-on-a-c...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Vol. 346; p. 130422
Main Authors: Welden, Rene, Gottschalk, Caspar, Madarevic, Ivan, Van Bael, Margriet J., Iken, Heiko, Schubert, Jürgen, Schöning, Michael J., Wagner, Patrick H., Wagner, Torsten
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 01-11-2021
Elsevier Science Ltd
Subjects:
Charge transfer
Chemical reactions
Current carriers
Electrodes
Fluorescent dyes
Fluorine
Heterostructures
Holes (electron deficiencies)
Illumination
Light-addressable electrodes
Microchannels
pH-gradient formation
Photoelectrolysis
Semiconductor materials
Stability
Tin oxides
Titanium dioxide
Photoelectrolysis
pH-gradient formation
Light-addressable electrodes
Microchannels
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Summary:•pH-gradient generation inside microchannels.•Light-addressable electrodes for flexible pH-gradient generation.•Influence of the applied potential and light-source parameters. Understanding the influence of the pH value towards microenvironments of bioanalytical systems, especially inside lab-on-a-chip or micro total analysis systems, is crucial for the success of experiments. Different approaches are known to control the pH value inside those microchannels and to tailor pH gradients. Nevertheless, the existing concepts often lack the possibility for a flexible adaption of these gradients. To overcome this limitation, the present work reports on light-addressable electrodes (LAEs) as a tool to create pH gradients at the micro scale. Light-addressable electrodes are based on semiconductor materials in which electron-hole pairs are generated by illumination. These free charge carriers can trigger chemical reactions at the semiconductor-electrolyte interface, including the change of the pH value. For this purpose, we have designed LAEs based on glass/fluorine-doped tin oxide/titanium dioxide heterostructures. This work studies the influence of the applied external potential, illumination brightness and illumination area on the maximum pH change and width of the pH gradient using a pH-sensitive fluorescent dye. Furthermore, we evaluate the correlation between the pH change and electrical charge transfer. Finally, we provide an outlook towards tailoring complex pH gradients inside microchannels.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2021.130422