Influence of CNT Concentrations on Structural and Morphological Properties of PANI-SnO2-CNT Nanocomposite Thin Films and the Sensitivity Performance to Detect E. coli in Water

Huda Abdullah, N. Naim, Mohamad Aiman Arif Omar, Jian Kang, Iskandar Yahya, N. Kamal, N. Aziz, Atiqah Afdzaluddin, Noraziah Zin, Mohd Hafiz Dzarfan Othman, Wing Yap
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Abstract

Carbon nanotubes (CNTs) are particularly attractive for use in sensors for environmental and health monitoring. This study proposes a new approach in developing polymer-metal-based sensor for E. coli detection by using CNTs incorporation. PANI-SnO 2 nanocomposite thin films were combined with CNTs to be fabricated as biosensing devices. PANI-(SnO 2 ) 1-x -CNT x nanocomposite thin films were synthesized using sol-gel method and deposited on a glass substrate by spin coating technique. The prepared thin films were characterized by X-ray diffraction (XRD), field scanning electron microscopy (FESEM), atomic field microscopy (AFM) and ultraviolet-visible (UV-vis) spectroscopy. The sensitivity performance of PANI-(SnO 2 ) 1-x -CNT x nanocomposite thin films were conducted by using current-voltage ( I-V ) measurements. From the results, XRD patterns show the appearance of PANI, SnO 2 and C peaks and the increasing crystallite size with the increasing of CNT concentration. FESEM images show the spherical shape of SnO 2 and the nanotubes of carbon in the diameter size range 30 – 100 nm and 150 – 220 nm respectively. AFM analysis has found out the roughness parameter has increased when CNT percentage was increased. The peaks from UV-Vis absorbance bands indicated the presence of CNT and SnO 2 at wavelength 270 nm and 370 nm respectively. From I-V measurement of the sensor, PANI-(SnO 2 ) 1-x -CNT x with x = 0.03 performed the highest sensitivity which is 16.32%. The results demonstrate that the increasing of CNT concentrations was increasing the sensitivity of PANI-(SnO 2 ) 1-x -CNT x thin films towards E. coli .
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碳纳米管浓度对 PANI-SnO2-CNT 纳米复合薄膜的结构和形态特性以及检测水中大肠杆菌灵敏度性能的影响
碳纳米管(CNT)在环境和健康监测传感器中的应用尤其具有吸引力。本研究提出了一种利用 CNTs 开发基于聚合物-金属的大肠杆菌检测传感器的新方法。将 PANI-SnO 2 纳米复合薄膜与 CNTs 结合,制成生物传感设备。采用溶胶-凝胶法合成了 PANI-(SnO 2 ) 1-x -CNT x 纳米复合薄膜,并通过旋涂技术沉积在玻璃基底上。利用 X 射线衍射 (XRD)、场扫描电子显微镜 (FESEM)、原子场显微镜 (AFM) 和紫外-可见 (UV-vis) 光谱对制备的薄膜进行了表征。通过电流-电压(I-V)测量,研究了 PANI-(SnO 2 ) 1-x -CNT x 纳米复合薄膜的灵敏度性能。从结果来看,XRD 图谱显示出现了 PANI、SnO 2 和 C 峰,并且随着 CNT 浓度的增加,结晶尺寸也在增大。FESEM 图像显示 SnO 2 呈球形,碳纳米管直径范围分别为 30 - 100 nm 和 150 - 220 nm。原子力显微镜分析发现,当碳纳米管比例增加时,粗糙度参数也随之增加。紫外-可见吸收带的峰值表明,在波长 270 纳米和 370 纳米处分别存在碳纳米管和氧化锡 2。从传感器的 I-V 测量结果来看,PANI-(SnO 2 ) 1-x -CNT x(x = 0.03)的灵敏度最高,达到 16.32%。结果表明,随着 CNT 浓度的增加,PANI-(SnO 2 ) 1-x -CNT x 薄膜对大肠杆菌的灵敏度也在增加。
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