Zinc oxide nanowires were hydrothermally synthesized on the surface of an Au cylindrical spiral formed by manually spiraling an Au fiber around an optical fiber core, glucose oxidase was immobilized on these nanowires by physical adsorption, and then a spirally hierarchical structure-based glucose enzymatic electrode was obtained. The surface morphologies of the spirally hierarchical structures and corresponding enzymatic electrodes were extracted, and the electrochemical performances of the enzymatic electrodes were characterized. It was concluded that the synthesizing parameters of zinc oxide nanowires significantly affected the surface morphologies and glucose oxidase immobilization on the spirally hierarchical structures, and further the performances of related glucose sensors. With Zn2﹢concentration of the growth solution set at 25 mmol/L, the roughness of surface morphology was determined to be 0. 10 μm and correlation length 0. 29 μm, resulting in a better immobilization of glucose oxidase upon zinc oxide nanowires. In this case the sensitivity of the glucose sensor was determined to be 2. 15 μA/(mmol/L·cm2), the linear range was 0-4. 50 mmol/L, the low detection limit was 9. 20 μmol/L and Michaelis-Menten constant was 3. 68 mmol/L. The results not only benefit the batch production of the spirally hierarchical structure-based enzymatic electrodes, but also significantly improve the performances of the glucose sensors.

A novel automatic manufacture device for tissue micro-array is introduced in this paper. Based on the analyses of task and process, the new device prototype is researched and developed. The device consists of a paraffin positioning module and a three-manipulator module. The control system is composed of accurate navigation sub-system, digital image recognition sub-system and punching-filling operating sub-system. The results of experiment demonstrate that the device can accomplish the operations such as image automatic recognition, accurate position, auto-punching and filling. It fulfills the requirements to automatic manufacture of tissue micro-array.
Automation ; Equipment Design ; Humans ; Tissue Array Analysis ; instrumentation ; methods