M. Matsuguchi, Kaito Horio, Atsuya Uchida, Rui Kakunaka, Shunsuke Shiba
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引用次数: 0
摘要
本文介绍了一种新型 NH3 气体传感器,该传感器采用了具有独特接枝膜结构的聚苯胺 (PANI)。制备方法很简单:在柔性聚对苯二甲酸乙二醇酯(PET)薄膜上涂覆聚多巴胺(PD),然后在其表面生长 PANI 接枝链。这种独特的三层传感器对 50 ppm NH3 在 50 °C 干燥环境中的响应值为 12。这一数值超过了之前报道的使用结构可控 PANI 薄膜的传感器。此外,它与结合了 PANI 和金属氧化物半导体或碳材料的传感器不相上下,后者的高灵敏度已被报道过。为了证实我们的薄膜作为柔性传感器的潜力,我们研究了弯曲对其特性的影响。结果表明,虽然弯曲会降低响应值,但对响应时间或恢复没有影响。这表明传感器薄膜本身不会因弯曲而破损,并且具有足够的机械强度。
A Flexible Ammonia Gas Sensor Based on a Grafted Polyaniline Grown on a Polyethylene Terephthalate Film
A novel NH3 gas sensor is introduced, employing polyaniline (PANI) with a unique structure called a graft film. The preparation method was simple: polydopamine (PD) was coated on a flexible polyethylene terephthalate (PET) film and PANI graft chains were grown on its surface. This distinctive three-layer sensor showed a response value of 12 for 50 ppm NH3 in a dry atmosphere at 50 °C. This value surpasses those of previously reported sensors using structurally controlled PANI films. Additionally, it is on par with sensors that combine PANI with metal oxide semiconductors or carbon materials, the high sensitivity of which have been reported. To confirm our film’s potential as a flexible sensor, the effect of bending on the its characteristics was investigated. This revealed that although bending decreased the response value, it had no effect on the response time or recovery. This indicated that the sensor film itself was not broken by bending and had sufficient mechanical strength.
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