Adsorption of laccase on the surface of nanoporous gold and the direct electron transfer between them

Nanoporous gold (NPG) with different pore sizes was obtained by simple dealloying and thermal annealing methods. The morphology of the NPG was characterized by scanning electron microscopy and nitrogen adsorption technique. Laccase was immobilized on the surface of the NPG by physical adsorption. Detailed studies were made on the effect of the pore size on laccase immobilization. NPG with pore size of 40-50 nm was demonstrated to be a suitable support for laccase immobilization. Compared with free enzyme, the optimum pH of immobilized laccase did not change; the optimum temperature, however, rose from 40 to 60 degrees C. Both thermal and storage stabilities of laccase improved markedly via the immobilization. Laccase immobilized on NPG (100 nm in thickness) was used for enzyme electrode construction. Direct electrochemistry of laccase on NPG supported by glassy carbon electrode (NPG/GC) was achieved with high efficiency due to the outstanding physicochemical characteristics of the NPG. The laccase-loaded NPG/GC electrode also exhibited a strong electrocatalytic activity toward O-2 reduction. When stored at 4 degrees C for I month, the electrode showed no obvious changes in its response. All results presented in the paper indicated that NPG was an excellent carrier for laccase immobilization and would have potential applications in biofuel cell and/or biosensor areas.