研究目的
To introduce undergraduate students to the detection and quantification of microplastics in bottled water using fluorescence microscopy, reinforcing instrumental concepts in fluorescence spectroscopy and engaging students with real-world environmental issues.
研究成果
The experiment successfully introduced students to the principles of fluorescence and the issue of microplastic pollution, with positive feedback and improved understanding post-experiment. It provided a hands-on approach to engage students with real-world environmental problems and instrumental analysis techniques.
研究不足
The DIY fluorescence microscope lacks fine control and features of commercial fluorescence microscopes, such as adjustable excitation intensity and wavelength, multiple objectives, and higher resolution. The experiment may also be limited by the potential for sample contamination due to the ubiquity of plastic.
1:Experimental Design and Method Selection:
Students filter microplastics from bottled water and stain them with Nile red dye for fluorescence microscopy. A low-cost, self-assembled fluorescence microscope is used for detection.
2:Sample Selection and Data Sources:
Consumer bottles of drinking water purchased locally and bottled in the United States.
3:List of Experimental Equipment and Materials:
Polycarbonate track-etched (PCTE) filters, Nile red dye solution, glass microscope slides, Pasteur pipet, and a DIY fluorescence microscope or commercial fluorescence microscope.
4:Experimental Procedures and Operational Workflow:
Samples are filtered, stained with Nile red, dried, and then analyzed under fluorescence microscopy. Images are processed using FIJI software for particle counting and morphology assessment.
5:Data Analysis Methods:
Object counting and morphology categorization using FIJI software, with careful thresholding for fluorescence intensity and size limits to filter out objects smaller than the filter's pore size.
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