Pyrolytic Carbon Electrodes and Their Potential Application in Electrochemical Sensors

Thi Tuyet Ngan Nguyen, Thanh Giang Bui, D. T. Nguyen, Duc Thanh Nguyen, H. Nguyen, T. H. Nguyen, Thanh Binh Dang, T. T. Vu
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Abstract

In this work, pyrolytic carbon electrodes were prepared through pyrolysis of well-patterned AZ 1505 positive photoresist films. The designed electrodes firstly were prepared via photolithography technique, then the polymer was thermally broken-down into carbon skeletons in an oxygen-free environment using pyrolysis technique. The effect of the highest temperature and ramping rate on the electrical properties of the carbon films were investigated. The results show that the pyrolysis process was optimal at the ramping rate of 3 °C/minute, annealing temperature of 900 °C, and annealing time of one hour. The lowest resistivity was obtained at 6.3 ´ 10-5 Wm for pyrolytic films prepared at the optimal pyrolysis conditions. Electrochemical measurements confirm the potential of this electrode for electrochemical sensing applications.
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热解碳电极及其在电化学传感器中的潜在应用
本文通过对az1505正极光刻胶薄膜的热解,制备了具有良好图案化的热解碳电极。设计的电极首先通过光刻技术制备,然后在无氧环境下使用热解技术将聚合物热分解成碳骨架。研究了最高升温温度和升温速率对碳膜电性能的影响。结果表明,升温速率为3℃/min、退火温度为900℃、退火时间为1 h时,热解工艺最优。在最佳热解条件下制备的热解膜在6.3´10-5 Wm处电阻率最低。电化学测量证实了这种电极在电化学传感应用中的潜力。
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