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ACS Sens


Title:Simultaneous Sensing of Multiplex Volatile Organic Compounds by Adsorption and Plasmon Dual-Induced Raman Enhancement Technique
Author(s):Tan Z; Wang J; Xu L; Zheng Q; Han L; Wang C; Liao X;
Address:"College of Chemistry and Materials Science and Analytical & Testing Center, Nanjing Normal University, Nanjing 210023, China. Department of Pharmaceutical Analysis, China Pharmaceutical University, Nanjing 211198, China. State Key Laboratory of Analytical Chemistry for Life Science, School of Chemistry and Chemical Engineering, Nanjing University, Nanjing 210023, China"
Journal Title:ACS Sens
Year:2023
Volume:20230201
Issue:2
Page Number:867 - 874
DOI: 10.1021/acssensors.2c02572
ISSN/ISBN:2379-3694 (Electronic) 2379-3694 (Linking)
Abstract:"Developing highly efficient gas sensors with excellent performance for rapid and sensitive detection of volatile organic compounds (VOCs) is of critical importance for the protection of human health, ecological environment, and other factors. Here, a robust gas sensor based on Raman technology was constructed by an in situ grown 2D covalent organic framework (COF) on Au nanoparticles' surface in the microchannel. Dual enhancement effects are included for the as-prepared microfluidic sensor. First, acting as a gas confinement chamber, the 2D COF could effectively capture gas molecules with high adsorption capacity and fast adsorption kinetics, resulting in VOCs' preconcentration at a high level in the COF layer. At the same time, after being stacked in the microchannel, abundant hot spots were generated among the nanogaps of Au@COF NPs. The local surface plasmon resonance effect could effectively enhance the Raman intensity. Both factors contribute to the improved detection sensitivity of VOCs. As a demonstration, several representative VOCs with different functional groups were tested. The resultant Raman spectra were subjected to the statistical principal component analysis. Varied VOCs can be successfully detected with a detection limit as low as ppb level and distinguished with 95% confidence interval. The present microfluidic platform provides a simple, sensitive, and fast method for VOCs' sensing and distinguishing, which is expected to hold potential applications in the fields of health, agricultural, and environmental research"
Keywords:"Humans *Volatile Organic Compounds/analysis Adsorption Gold *Metal Nanoparticles Spectrum Analysis, Raman/methods 2D covalent organic frameworks microfluidics molecular adsorption plasmon-enhanced Raman scattering volatile organic compounds;"
Notes:"MedlineTan, Zheng Wang, Jin Xu, Li Zheng, Qijun Han, Lingfei Wang, Chen Liao, Xuewei eng Research Support, Non-U.S. Gov't 2023/02/03 ACS Sens. 2023 Feb 24; 8(2):867-874. doi: 10.1021/acssensors.2c02572. Epub 2023 Feb 1"

 
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