Journal
CHEMOSENSORS
Volume 11, Issue 3, Pages -Publisher
MDPI
DOI: 10.3390/chemosensors11030196
Keywords
surface plasmon; electrochemistry; waveguide electrode; cyclic voltammetry; chronoamperometry; convolutional voltammetry
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Surface plasmon polaritons (SPPs) are attractive for surface sensing due to their field enhancement and sub-wavelength localization properties. Combining SPPs with electrochemical techniques allows for a multimodal biosensor and provides complementary information on redox reactions. It also enables novel redox reaction pathways through plasmonic electrocatalysis.
Surface plasmon polaritons (SPPs) are optical surface waves propagating along a metal surface. They exhibit attributes such as field enhancement and sub-wavelength localization, which make them attractive for surface sensing, as they are heavily exploited in surface plasmon biosensors. Electrochemistry also occurs on metal surfaces, and electrochemical techniques are also commonly applied in biosensors. As metal surfaces are integral in both, it is natural to combine these techniques into a single platform. Motivations include: (i) realising a multimodal biosensor (electrochemical and optical), (ii) using SPPs to probe the electrochemical double layer or to probe electrochemical activity, thus revealing complementary information on redox reactions, or (iii) using SPPs to pump electrochemical reactions by creating non-equilibrium energetic electrons and holes in a working electrode through the absorption of SPPs thereon. The latter is of interest as it may yield novel redox reaction pathways (i.e., plasmonic electrocatalysis).
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