Forensic Fiber Analysis by Thermal Desorption/Pyrolysis-Direct Analysis in Real Time-Mass Spectrometry

Liang, Jian; Frazier, Jared; Benefield, Virginia; Chong, Ngee Sing; Zhang, Mengliang

doi:10.1021/acs.analchem.9b04167

Cited by 24 publications

(29 citation statements)

References 25 publications

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“…Textile fibers from clothing, home furnishings, and industrial fabric (such as tarps, ropes, and upholstery) can be one of the most abundant sources of forensic evidence at almost any crime scene. Typically, these fibers have some sort of colorant attached to them, which can make them an important piece of evidence used for the positive identification of a suspect [6–8]. The same concept can be applied to plastics, food, and painted objects (tool transfer residue or automobile chips/residues), which also contain colorants, either in the form of a dye or, more commonly, a pigment [9,10].…”

Section: Identification and Characterization Of Synthetic Dyes By Empmentioning

confidence: 99%

“…In the case of disperse dyes, a common practice for analysis and identification is the use of LC or LC‐MS with the sample extracted from the fiber [17,77,79,100,101]; however, several studies have shown that dyes can be identified with direct ionization methods [7,74]. DART uses a stream of heated metastable gas to vaporize and ionize analytes, sending them directly into the mass spectrometer for analysis [7,85]. This method generates real‐time mass spectra of a sample simply by holding the sample in front of the source, whether it is a pharmaceutical tablet, a dollar bill, or a textile fiber.…”

Section: Identification and Characterization Of Synthetic Dyes With Mmentioning

confidence: 99%

See 1 more Smart Citation

Characterization of synthetic dyes for environmental and forensic assessments: A chromatography and mass spectrometry approach

Terán

Millbern

Shao

et al. 2020

J of Separation Science

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Dyes have become common substances since they are employed in mostly all objects surrounding our daily activities such as clothing and upholstery. Based on the usage and disposal of these objects, the transfer of the dyes to other media such as soil and water increases their prevalence in our environment. However, this prevalence could help to solve crimes and pollution problems if detection techniques are proper. For that reason, the detection and characterization of dyes in complex matrices is important to determine the possible events leading to their deposition (natural degradation, attempts of removal, possible match with evidence, among others).Currently, there are several chromatographic and mass spectrometric approaches used for the identification of these organic molecules and their derivatives with high specificity and accuracy. This review presents current chromatographic and mass spectrometric methods that are used for the detection and characterization of disperse, acid, basic, and reactive dyes, and their derivatives.

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Section: Identification and Characterization Of Synthetic Dyes By Empmentioning

confidence: 99%

Section: Identification and Characterization Of Synthetic Dyes With Mmentioning

confidence: 99%

Characterization of synthetic dyes for environmental and forensic assessments: A chromatography and mass spectrometry approach

Terán

Millbern

Shao

et al. 2020

J of Separation Science

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“…Nowadays, PHWE has become a popular green extraction technique for the extraction of various types of compounds from different types of environmental, food and plant materials. It has also been used for the extraction and removal of organic compounds from foodstuff and soils to ensure food safety and environmental monitoring [52]. PHWE is an alternative to organic solvent extraction which uses pressurized water to extract compounds at high temperature and controlled pressure.…”

Section: Pressurized Hot Water Extractionmentioning

confidence: 99%

“…There are some major advantages of PHWE since it reduces the consumption of organic solvents in extraction, water is available everywhere and is non-toxic, easily disposable and recyclable with minimum environmental difficulties. It is a low-cost method that is efficient in extracting less-polar organic compounds from a variety of matrices [52,57,58].…”

Section: Pressurized Hot Water Extractionmentioning

confidence: 99%

Strategy for Sustainable and Green Chromatographic Separation Science: Innovation, Technology and Application

Mohammad

Azmir

Ademario

et al. 2020

CCHG

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: Green separation science involves extraction, pre-concentration and chromatographic analysis aiming at minimizing environmental impact by reducing energy and reagent usage and reducing or eliminating waste generation. However, the enrichment of trace analytes and/or the analysis of complex matrices most frequently require several steps before analysis, such as extraction, pre-concentration, clean up and preparative chromatography. Thus, alternative and greener separation techniques and solvents are replacing classical methods to diminish the carbon footprint and increase sustainability. Moreover, many innovations are also emerging to curtail the environmental impact of samples analysis; such as micro or nano analytical platforms, sensor-based systems and direct injection to high resolution mass spectrometry. The current review provides an updated account of the green and sustainable separation science techniques. The current innovations on greener separations and their application in different fields of study are discussed.

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“…Nylons, also referred to as polyamides, are a group of synthetic polymers that are used to manufacture rope, fabric, carpet fibers, and more [ 1 ] Various kinds of nylons are differentiated based on their synthesis [ 2 ]. A few examples of the various nylons include nylons 6, 6/6, 11, etc.…”

Section: Introductionmentioning

confidence: 99%

Forensic Analysis of Polymeric Carpet Fibers Using Direct Analysis in Real Time Coupled to an AccuTOF™ Mass Spectrometer

Zughaibi

Steiner

2021

Polymers

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Polymeric fibers are encountered in numerous forensic circumstances. This study focused on polymeric carpet fibers most encountered at a crime scene, which are nylons, polyesters and olefins. Analysis of the multiple polymer types was done using Direct Analysis in Real Time (DART™) coupled to an Accurate time-of-flight (AccuTOF™) mass spectrometer (MS). A DART gas temperature of 275 °C was determined as optimal. Twelve olefin, polyester, and nylon polymer standards were used for parameter optimization for the carpet fiber analysis. A successful identification and differentiation of all twelve polymer standards was completed using the DART-AccuTOF™. Thirty-two carpet samples of both known and unknown fiber composition were collected and subsequently analyzed. All samples with known fiber compositions were correctly identified by class. All of the remaining carpet samples with no known composition information were correctly identified by confirmation using Fourier-transform infrared spectroscopy (FTIR). The method was also capable of identifying sub-classes of nylon carpet fibers. The results exhibit the capability of DART-AccuTOF™ being applied as an addition to the sequence of tests conducted to analyze carpet fibers in a forensic laboratory.

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Forensic Fiber Analysis by Thermal Desorption/Pyrolysis-Direct Analysis in Real Time-Mass Spectrometry

Cited by 24 publications

References 25 publications

Characterization of synthetic dyes for environmental and forensic assessments: A chromatography and mass spectrometry approach

Characterization of synthetic dyes for environmental and forensic assessments: A chromatography and mass spectrometry approach

Strategy for Sustainable and Green Chromatographic Separation Science: Innovation, Technology and Application

Forensic Analysis of Polymeric Carpet Fibers Using Direct Analysis in Real Time Coupled to an AccuTOF™ Mass Spectrometer

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