| Improved Sensitivity of a Glucose Sensor by Encapsulation of Free GOx in Conducting Polymer Micropillar Structure |
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Shin-Hwan Jung, Young-Kwan Lee, Yong-Keun Son |
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Department of Chemistry and BK21 School of Chemical Materials Science;Department of Chemical Engineering, Sungkyunkwan University;Department of Chemistry and BK21 School of Chemical Materials Science; |
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| Abstract |
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A simple process of fabricating micropillar structure and its influence upon enhancing electrochemical biosensor response were studied in this work. Conducting polymer PEDOT was used as a base material in formulating a composite with PVA. Micro porous PC membrane filter was used as a template for the micropillar of the composite on ITO electrode. This structure could provide plenty of encapsulating space for enzyme species. After dosing enzyme solution into this space, Nafion film tent was cast over the pillar structure to complete the micropillar cavity structure. In this way, the encapsulation of enzyme could be accomplished without any chemical modification. The amount of enzyme species was easily controllable by varying the concentration of the dosing solution. The more amount of enzyme is stored in the sensor, the higher the electrochemical response is produced. One more reason for the sensitivity improvement comes from the large surface area of the micropillar structure. Application of 0.7 V produced the best current response under the condition of pH 7.4. This biosensor showed linear response to the glucose in 0.1~1 mM range with the average sensitivity of $14.06{mu}A/mMcm^2$. Detection limit was 0.01 mM based on S/N = 3. |
| Key Words:
Glucose biosensor, Micropillar structure, Conduccting polymer composite, PEDOT, Capillary action |
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