Aneesh Koyappayil, Hyunho Seok, Gwan Hyun Choi, Sachin Chavan, Sangho Yeon, Sihoon Son, Anna Go, Jinhyoung Lee, Keon-Woo Kim, Dongho Lee, Hyun-Bin Choi, Hyeong-U Kim, Jin Kon Kim, Taesung Kim, Min-Ho Lee
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引用次数: 0
摘要
本研究展示了介孔三氧化钨(WO3)装饰柔性聚酰亚胺(PI)电极的制备方法,用于高灵敏度检测邻苯二酚(CC)和对苯二酚(HQ)这两种环境污染物。采用蒸发诱导自组装(EISA)和电喷雾方法在柔性聚酰亚胺电极上形成了有机-无机复合点。电喷雾过程中的温度梯度诱导了蒸发诱导自组装过程,加热的基底部分分解了经臭氧等离子体蚀刻的有机部分,形成了介孔结构。差分脉冲伏安法和循环伏安法证明了分析物浓度与电化学响应之间的线性关系。计算研究支持 CC 和 HQ 分子在模型 WO3 表面的自发吸附。该传感器灵敏度高、线性范围宽、检测限低,可单独或同时测定 CC 和 HQ。对河水的实际样品分析证实了其实用性。WO3 涂层 PI 电极是检测这些污染物的一种高效可靠的方法,有助于环境安全措施的实施。
Mesoporous WO3-Dot-Decorated Flexible Electrodes for the Determination of Industrial Pollutants
This study demonstrates the fabrication of mesoporous tungsten trioxide (WO3)-decorated flexible polyimide (PI) electrodes for the highly sensitive detection of catechol (CC) and hydroquinone (HQ), two environmental pollutants. Organic–inorganic composite dots are formed on flexible PI electrodes using evaporation-induced self-assembly (EISA) and electrospray methods. The EISA process is induced by a temperature gradient during electrospray, and the heated substrate partially decomposes the organic parts etched by O2 plasma, creating mesoporous structures. Differential pulse voltammetry and cyclic voltammetry demonstrate a linear correlation between analyte concentration and the electrochemical response. Computational studies support the spontaneous adsorption of CC and HQ molecules on model WO3 surfaces. The proposed sensor shows high sensitivity, a wide linear range, and a low detection limit for both individual and simultaneous determination of CC and HQ. Real sample analysis on river water confirms practical applicability. The WO3-decorated PI electrode presents an efficient and reliable approach for detecting these pollutants, contributing to environmental safety measures.
期刊介绍:
Energy & Environmental Materials (EEM) is an international journal published by Zhengzhou University in collaboration with John Wiley & Sons, Inc. The journal aims to publish high quality research related to materials for energy harvesting, conversion, storage, and transport, as well as for creating a cleaner environment. EEM welcomes research work of significant general interest that has a high impact on society-relevant technological advances. The scope of the journal is intentionally broad, recognizing the complexity of issues and challenges related to energy and environmental materials. Therefore, interdisciplinary work across basic science and engineering disciplines is particularly encouraged. The areas covered by the journal include, but are not limited to, materials and composites for photovoltaics and photoelectrochemistry, bioprocessing, batteries, fuel cells, supercapacitors, clean air, and devices with multifunctionality. The readership of the journal includes chemical, physical, biological, materials, and environmental scientists and engineers from academia, industry, and policy-making.
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