Field-Assisted Efficient Capturing and Analysis of Airborne Nanoparticulate Matter Using a Multifunctional Nanoporous Membrane

材料科学 纳米孔 罗丹明6G 拉曼散射 拉曼光谱 纳米技术 粒子(生态学) 纳米颗粒 气溶胶 超细粒子 过滤(数学) 化学工程 荧光 光学 物理 地质学 工程类 气象学 海洋学 统计 生物 遗传学 数学
作者
Seong Jae Kim,Gaabhin Ryu,Jihae Chang,Dong Geun Kim,Young Ho Park,Young‐Jin Kim,Sanha Kim
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:16 (33): 44261-44269 被引量:1
标识
DOI:10.1021/acsami.4c08516
摘要

As the potential adverse health and environmental effects of nanoscale pollutants have garnered significant attention, the demand for monitoring and capturing ultrafine particulate matter has been growing. With the rise in ultrafine dust emissions, this issue has become increasingly important. However, submicron particles require advanced strategies to be captured because of their limited inertial effect. For example, electrostatic air filters have been investigated for their improved performance in the fine particle regime. On the other hand, Raman spectroscopy was proposed as a promising analytical strategy for aerosol particles because it can be used to conveniently detect analytes in a label-free manner. Thus, the synergistic integration of these strategies can open new applications for addressing environment-related challenges. This study presents a multifunctional approach for achieving both air filtration and surface-enhanced Raman scattering (SERS) for analyte identification. We propose a nanoporous membrane composed of a thin gold layer, copper, and copper oxide to provide the desired functions. The structures are produced by performing scalable electrodeposition and subsequent electron-beam evaporation, attaining an excellent filtration efficiency of 95.9% with an applied voltage of 5 kV for 300 nm KCl particles and a pressure drop of 121 Pa. Raman intensity measurements confirm that the nanodendritic surface of the membrane intensifies the Raman signals and allows for the detection of 10 μL of nanoplastic particle dispersion with a concentration of 50 μg/mL. Rhodamine 6G aerosol stream with an approximate particle deposition rate of 0.040 × 10
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