Electrocatalytic Nitrite Reduction to Nitrogen Oxide by a Synthetic Analogue of the Active Site of Cu‐Containing Nitrite Reductase Incorporated in Nafion Film |
| |
Authors: | Yusaku Migita Hiroshi Yokoyama Akiko Minami Takanori Mori Masaki Nojiri Shinnichiro Suzuki Kazuya Yamaguchi |
| |
Institution: | Department of Chemistry, Graduate School of Science, Osaka University, 1‐1 Machikaneyama, Toyonaka, Osaka 560‐0043, Japan |
| |
Abstract: | The electrocatalytic reduction of nitrite to NO by CuMe2bpa(H2O)(ClO4)]+ ( 1 ), which is a model for the active site of copper‐containing nitrite reductase, incorporated in Nafion film was investigated. The Cu complex in the Nafion matrix exhibits an intense band at 267 nm and a broad band around 680 nm, assigned to d–d and ligand field transitions, respectively. The 77‐K EPR spectrum of 1 in the Nafion matrix reveals the typical axial signals (g//=2.28, g =2.08, A//=13.3 mT) of a tetragonal Cu2+ chromophore. The redox potential, which is related to the Cu+/Cu2+ couple, was ?146 mV (ΔE=72 mV) at pH 5.5. The redox reaction of 1 in Nafion was not dependent on pH and was a diffusion‐controlled process. The electronic structure and redox properties of 1 in the negatively charged polymer matrix were almost the same as those in aqueous solution. In the presence of nitrite, an increase in the cathodic current was observed in the cyclic voltammogram of 1 in the Nafion matrix. The current increase was dependent on the nitrite concentration and pH in solution. Upon reaching ?400 mV, a linear generation of NO was observed for the 1 /Nafion film coated electrode. The relationship between the rate of NO generation and the nitrite concentration in solution was analyzed with the Michaelis–Menten equation, where Vmax=45.1 nM s?1 and Km=15.8 mM at pH 5.5. The Cu complex serves the function of both the catalyst and electron transport in the Nafion matrix. The sensitivity of the electrode was estimated to be 3.23 μA mM?1 in the range of 0.1–0.4 mM nitrite. |
| |
Keywords: | Copper Nitrite reductase Model complex Electrocatalytic reduction Complex modified electrodes |
|
|