Abstract
Melanins are ubiquitous in nature, yet their functions remain poorly understood, because their structures and properties elude characterization by conventional methods. Since many of the proposed functions of melanins (e.g., antioxidant, pro-oxidant, and radical scavenging) involve an exchange of electrons, we developed an electrochemical reverse engineering methodology to probe the redox properties of melanin. This mediated electrochemical probing (MEP) method (i) characterizes insoluble melanin particles that are localized adjacent to an electrode within a permeable hydrogel film, (ii) employs diffusible mediators to shuttle electrons between the electrode and melanin sample, and (iii) imposes complex sequences of input voltages and analyzes output response characteristics (e.g., currents) to reveal redox properties. Here, we illustrate the versatility of MEP and review results demonstrating that melanins have reversible redox activities, can exchange electrons with various reductants and oxidants, and ...
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