Abstract
A technique for distinguishing biological material based on surface-enhanced Raman scattering (SERS) is reported in this work. Of particular interest is biological material that can be airborne. Silver colloidal particles with diameters in the range 10 to 20 nm and with a characteristic ultraviolet–visible (UV-VIS) absorption band at 400 nm were used to obtain SERS spectra of <i>Escherichia coli</i>, <i>Pseudomonas aeruginosa</i>, and <i>Salmonella typhimurium</i> bacteria and a number of tree and grass pollens (<i>Cupressus arizonica</i> (cypress), <i>Sequoia sempervirens</i> (redwood), <i>Populus deltoides</i> (cottonwood), <i>Poa pratensis</i> (Kentucky bluegrass), and <i>Anthoxanthum odoratum</i> (sweet vernal grass)). While differences in the SERS spectra among the bacteria were small, we found that the pollen spectra we analyzed could readily be distinguished from the bacteria spectra, and there were significant differences between pollen from different families. In order to obtain reproducible results, we studied the parameters controlling the interaction between the analyte and the nanoscale metallic surface. Our results show that the volume ratio of analyte to colloidal particles must be within a narrow range of values to optimize the signal-to-noise ratio of the SERS spectra and minimize the fluorescence from the analyte. Also, we found that the time-dependent behavior of colloidal/bacterial suspensions (or adsorption rate of the silver colloid particles on the bacteria) is strongly dependent on pH, density of bacteria in solution, and even, to some extent, the type of bacteria.
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