The Analysis of Colored Acrylic, Cotton, and Wool Textile Fibers Using Micro‐Raman Spectroscopy. Part 2: Comparison with the Traditional Methods of Fiber Examination

Buzzini, Patrick; Massonnet, Geneviève

doi:10.1111/1556-4029.12654

Cited by 32 publications

(19 citation statements)

References 19 publications

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“…They demonstrated that the ability to obtain viable spectra significantly depended upon the laser wavelength used for analysis as well as the color and type of fiber . The second portion of this two‐part survey compared the results of analyzing 180 black, blue, and red cotton, wool, and acrylic fibers using Raman microspectroscopy with traditional methods including light microscopy, TLC, and UV–vis MSP . Raman spectroscopy is typically used to analyze the dyes in fibers and it was shown that by using four different wavelengths (i.e.…”

Section: Trace Evidencementioning

confidence: 99%

“…[92] The second portion of this two-part survey compared the results of analyzing 180 black, blue, and red cotton, wool, and acrylic fibers using Raman microspectroscopy with traditional methods including light microscopy, TLC, and UV-vis MSP. [93] Raman spectroscopy is typically used to analyze the dyes in fibers and it was shown that by using four different wavelengths (i.e. 514.5, 632.8, 785, and 830 nm), components in dye mixtures could be elucidated; where in some cases this was not achievable by other methods.…”

Section: Fibersmentioning

confidence: 99%

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What can Raman spectroscopy do for criminalistics?

Doty

Muro

Bueno

et al. 2015

J Raman Spectroscopy

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For decades Raman spectroscopy has been used as a specialized tool in a variety of fields. Forensic science is one discipline in particular that has greatly benefited from the application of Raman spectroscopic research. Here, studies using Raman spectroscopy for analyzing criminalistic evidence, including body fluids, human tissue, bones, gunshot residue, fibers, and hair, are reviewed. Many of these methods demonstrate the significance of incorporating chemometrics for data analysis to provide more reliable and quantitative results with associated errors. Currently, there are only a few branches of forensic science that use Raman spectroscopy in practice, despite its wide range of advantages. However, many more applications have been developed in the research setting and are presented here. These studies showcase the versatility and dependability of Raman spectroscopy, specifically for criminalistic purposes. The advantages of developing and transitioning these techniques to be used in practice are also discussed, including the tremendous benefits of portable instrumentation. Raman spectroscopy can easily become an established analytical technique for many criminalistics disciplines because it allows for obtaining real‐time, rapid, impartial, statistically confident results. Consequently, the improvements to forensic science as a whole will be revolutionary. Copyright © 2015 John Wiley & Sons, Ltd.

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Section: Trace Evidencementioning

confidence: 99%

Section: Fibersmentioning

confidence: 99%

What can Raman spectroscopy do for criminalistics?

Doty

Muro

Bueno

et al. 2015

J Raman Spectroscopy

View full text Add to dashboard Cite

show abstract

“…This technique is a nondestructive analysis, it needs no sample preparation, and the sample size can be in the order of picograms. Recently, Raman spectroscopy has been shown to be an effective multipurpose analytical method for forensic applications: identification of drugs [3], lipsticks [4], fibers [5], paints [6], and ink [7]. A previous study reported the identification of body fluids using Raman spectroscopy [8].…”

Section: Introductionmentioning

confidence: 99%

Blood identification and discrimination between human and nonhuman blood using portable Raman spectroscopy

et al. 2016

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Raman spectroscopy is commonly used in chemistry to identify molecular structure. This technique is a nondestructive analysis and needs no sample preparation. Recently, Raman spectroscopy has been shown to be effective as a multipurpose analytical method for forensic applications. In the present study, blood identification and discrimination between human and nonhuman blood were performed by a portable Raman spectrometer, which can be used at a crime scene. To identify the blood and to discriminate between human and nonhuman blood, Raman spectra of bloodstains from 11 species (human, rat, mouse, cow, horse, sheep, pig, rabbit, cat, dog, and chicken) were taken using a portable Raman spectrometer. Raman peaks for blood (742, 1001, 1123, 1247, 1341, 1368, 1446, 1576, and 1619 cm) could be observed by the portable Raman spectrometer in all 11 species, and the human bloodstain could be distinguished from the nonhuman ones by using a principal component analysis. This analysis can be performed on a bloodstain sample of at least 3 months old. The portable Raman spectrometer can be used at a crime scene, and this analysis is useful for forensic examination.

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“…This allows color analysis to be performed directly on a sample mounted for microscopic examination without needing to remove the dye for a solution-based measurement [8]. MSP has been shown to have a high discriminatory power for differentiating between colored fibers, especially when the UV range is included in the analysis [4], [6]–[9], [12]. …”

Section: Introductionmentioning

confidence: 99%

Photofading in cotton fibers dyed using red, yellow, and blue direct dyes during examination with microspectrophotometry (MSP)

et al. 2017

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Microspectrophotometry (MSP) is a rapid, nondestructive technique for the analysis of color in textile fibers. This technique combines microscopy and ultraviolet (UV)/visible (Vis) spectroscopy, allowing for very small colored samples, like dyed textile fibers, to be analyzed directly and thereby eliminates the need for time consuming and destructive extractions. While MSP is generally accepted to be a nondestructive evaluation method, a loss of color during analysis, or photofading can occur. In this work, cotton fabric dyed with blue, yellow, and red direct dyes at different concentrations. Dye photofading during MSP examination was investigated by measuring the absorbance at a specific position on the fibers from these fabrics, periodically over the course of 30 minutes. Visible color loss and a reduction in absorbance was observed for all three colors, but was most pronounced for the fibers dyed red. A major goal of this study is to increase awareness of the photofading phenomenon when analyzing cotton fibers using MSP.

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The Analysis of Colored Acrylic, Cotton, and Wool Textile Fibers Using Micro‐Raman Spectroscopy. Part 2: Comparison with the Traditional Methods of Fiber Examination

Cited by 32 publications

References 19 publications

What can Raman spectroscopy do for criminalistics?

What can Raman spectroscopy do for criminalistics?

Blood identification and discrimination between human and nonhuman blood using portable Raman spectroscopy

Photofading in cotton fibers dyed using red, yellow, and blue direct dyes during examination with microspectrophotometry (MSP)

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