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    Highly Sensitive Choline Biosensor Based on Nanotube Modified Pt Electrode Combined with Solª²Gel Immobilization

    Song Zhao, Huang Jiadong, Shi Haibin, Wu Baoyan, Zhao Zixia, Chen Qiangª³

    (College of Life Science, Nankai University, Tianjin 300071)

    Abstract A novel amperometric choline biosensor have been fabricated with choline oxidase (ChOx) immobilized by the solª²gel method on the surface of the multiª²wall carbon nanotubes modified platinum electrode in order to improve the sensitivity and the antiª²interferential property. Throught andlysing the electrocatalytic activity of the modifial electrode by MWCNT, it is know that MWCNT could not only improve the current response to H2O2 but also decvease the electrocatalytic potential. The effects of experimental variables such as the phosphate buffer solutions, pH and the amount of loading enzyme were investigated for the optimum analytical performance by an amperometric method. This sensor shows sensitive determination of choline with a linear range from 5.0¡Á10ª²6 to 1.0¡Á10ª²4 mol/L when the operating pH and potential are 7.2 and 0.15 V, respectively. The detection limit of choline was determined to be about 5.0¡Á10-7 mol/L. Selectivity for choline was 9.48 ¦ÌA¡¤(mmol/L)-1. The biosensor exhibits good stability, remainning 85% of its original current value after a month, and excellent antiª²interferential. It has been applied to the determination of choline in human serum. ......