Evaluation of portable vibrational spectroscopy for identifying plasticizers in dairy tubing

“…This identification via portable Raman spectroscopy aims to detect the presence of any phthalate ester moiety containing plasticizer in PVC food contact materials. Previous work from our laboratory has compared on-instrument library spectral matching with chemometric modeling for this phthalate ester detection (i.e., phthalate or not phthalate), with the accuracy of the methodologies for phthalate ester detection performing comparably . It is also worth noting here that the 1064 nm portable instrument utilized in this work is able to perform on-instrument library spectral matching, while chemometric modeling must be performed off-instrument in a less portable manner.…”

“…Recent years have also seen the miniaturization of analytical spectrometers, with a wide range of commercially available portable spectrometers. Our laboratory has previously evaluated various portable spectrophotometers for their ability to detect the phthalate ester in PVC food contact tubing . Specifically, six portable analytical devices were evaluated by our laboratory for their ability to detect the phthalate ester plasticizers in PVC food contact tubing.…”

“…Specifically, six portable analytical devices were evaluated by our laboratory for their ability to detect the phthalate ester plasticizers in PVC food contact tubing. From these six devices, the TruScan Raman device was found to provide accurate and reliable detection, utilizing both spectral library matching and on-instrument chemometrics . These portable spectroscopic methodologies are generally useful in the detection of analytes that are present in bulk concentrations as opposed to very low and trace levels (i.e., below 1%).…”

“…Our laboratory has previously evaluated various portable spectrophotometers for their ability to detect the phthalate ester in PVC food contact tubing. 24 Specifically, six portable analytical devices were evaluated by our laboratory for their ability to detect the phthalate ester plasticizers in PVC food contact tubing. From these six devices, the TruScan Raman device was found to provide accurate and reliable detection, utilizing both spectral library matching and on-instrument chemometrics.…”

“…From these six devices, the TruScan Raman device was found to provide accurate and reliable detection, utilizing both spectral library matching and on-instrument chemometrics. 24 These portable spectroscopic methodologies are generally useful in the detection of analytes that are present in bulk concentrations as opposed to very low and trace levels (i.e., below 1%). Limitations of this previous work include difficulties in sample positioning on the portable Raman instrument probe cone and signal interference from background fluorescence emitting from plasticized samples, both of which may lead to low analytical signal-to-noise ratios (S/N).…”

Portable Raman Spectroscopy for Screening of Phthalate Plasticizers in Food Contact Production Line Tubing and Bottle Cap Gaskets

“…This identification via portable Raman spectroscopy aims to detect the presence of any phthalate ester moiety containing plasticizer in PVC food contact materials. Previous work from our laboratory has compared on-instrument library spectral matching with chemometric modeling for this phthalate ester detection (i.e., phthalate or not phthalate), with the accuracy of the methodologies for phthalate ester detection performing comparably . It is also worth noting here that the 1064 nm portable instrument utilized in this work is able to perform on-instrument library spectral matching, while chemometric modeling must be performed off-instrument in a less portable manner.…”

“…Recent years have also seen the miniaturization of analytical spectrometers, with a wide range of commercially available portable spectrometers. Our laboratory has previously evaluated various portable spectrophotometers for their ability to detect the phthalate ester in PVC food contact tubing . Specifically, six portable analytical devices were evaluated by our laboratory for their ability to detect the phthalate ester plasticizers in PVC food contact tubing.…”

“…Specifically, six portable analytical devices were evaluated by our laboratory for their ability to detect the phthalate ester plasticizers in PVC food contact tubing. From these six devices, the TruScan Raman device was found to provide accurate and reliable detection, utilizing both spectral library matching and on-instrument chemometrics . These portable spectroscopic methodologies are generally useful in the detection of analytes that are present in bulk concentrations as opposed to very low and trace levels (i.e., below 1%).…”

“…Our laboratory has previously evaluated various portable spectrophotometers for their ability to detect the phthalate ester in PVC food contact tubing. 24 Specifically, six portable analytical devices were evaluated by our laboratory for their ability to detect the phthalate ester plasticizers in PVC food contact tubing. From these six devices, the TruScan Raman device was found to provide accurate and reliable detection, utilizing both spectral library matching and on-instrument chemometrics.…”

“…From these six devices, the TruScan Raman device was found to provide accurate and reliable detection, utilizing both spectral library matching and on-instrument chemometrics. 24 These portable spectroscopic methodologies are generally useful in the detection of analytes that are present in bulk concentrations as opposed to very low and trace levels (i.e., below 1%). Limitations of this previous work include difficulties in sample positioning on the portable Raman instrument probe cone and signal interference from background fluorescence emitting from plasticized samples, both of which may lead to low analytical signal-to-noise ratios (S/N).…”

Portable Raman Spectroscopy for Screening of Phthalate Plasticizers in Food Contact Production Line Tubing and Bottle Cap Gaskets

Recent trends in non-invasive Raman spectroscopy for rapid detection of food contaminants

A review on state-of-the-art detection techniques for micro- and nano-plastics with prospective use in point-of-site detection