Classification of Spectroscopically Encoded Resins by Raman Mapping and Infrared Hyperspectral Imaging

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Download	View accepted manuscript: Classification of Spectroscopically Encoded Resins by Raman Mapping and Infrared Hyperspectral Imaging (PDF, 1012 KiB)
DOI	Resolve DOI: https://doi.org/10.1021/cc050128i
Author	Search for: Fenniri, Hicham¹; Search for: Terreau, Owen¹; Search for: Chun, Sangki¹; Search for: Oh, Sung Joon; Search for: Finney, William F.; Search for: Morris, Michael D.
Affiliation	National Research Council of Canada. National Institute for Nanotechnology
Format	Text, Article
Abstract	Barcoded resins (BCRs) were recently introduced as a potential platform for pre-encoded multiplexed synthesis, screening, and biomedical diagnostics. A key step toward the development of this strategy is the ability to rapidly interrogate and classify the BCRs in a high-throughput, noninvasive manner. Here, we describe a one-step strategy based on Raman mapping and Fourier transform infrared imaging to classify and spatially resolve randomly distributed BCRs. To illustrate this methodology, mixtures of up to 25 different BCRs were imaged and classified with 100% confidence. This strategy can be readily extended to a larger pool of resins, provided each BCR features a unique vibrational fingerprint (spectroscopic barcode). We have also established that reliable single-bead Raman spectra can be recorded in 10 ms, thus confirming that Raman mapping, in particular, could be a very fast method to classify the BCRs.
Publication date	2006-03-13
In	Journal of Combinatorial Chemistry 8, no. 2 (13 March 2006): 192–198.
NPARC number	12330216
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Record identifier	c1083f36-7504-480c-86b8-4dff48c1bbbc
Record created	2009-09-10
Record modified	2020-04-22

Date modified:: 2025-06-22