Abstract
An amperometric nitric oxide (NO) sensor based on a ferrocene methanol functionalized electrode was fabricated. The sensor could work at low over potential with a detection limit of 50nM. The sensor exhibited excellent analytical performance, including a NO sensitivity of 6μAnM−1cm−2. The surface coverage of ferrocence on the modified electrode was calculated to be 2.06×10−10molcm−2. The heterogeneous rate constant calculated for ferrocene mediated NO reduction was found to be 3.5×105cm3mol−1s−1. Further, the blue colored intermediate (Ferrocene hyponitrite) obtained during chemical and electrochemical reduction of NO mediated by ferrocene was isolated and characterized spectroscopically. Nitrous oxide (N2O), the final product of electrochemical reduction of NO was characterized using GC-MS. The mechanism of ferrocene-mediated nitric oxide reduction was found to be similar to biological NO reduction exhibited by the enzymes.
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