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Within a hair's breadth -- forensic identification of single dyed hair strand now possible

Scientists develop modern analytical techniques as a tool for advancing forensic investigations

Date:
December 9, 2020
Source:
Tokyo University of Science
Summary:
A single strand of hair in a crime scene contains many clues that can help identify a perpetrator. In a recent study, scientists have combined two modern techniques, called surface-enhanced Raman spectroscopy and X-ray fluorescence, to distinguish between different colors in individual hair strands. Both these techniques are almost non-destructive and can be conducted with portable devices, making this a promising way to get supportive evidence in forensic investigations.
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In crime scene investigations, a single strand of hair can make a huge difference in the evolution of a case or trial. In most cases, forensic scientists must look for clues hidden in minuscule amounts of substances or materials found at crime scenes. If a fallen strand of hair with root cells attached is found, a DNA test can reveal the identity of a criminal; unfortunately, this seldom happens. Even though other types of DNA analysis can be conducted using the "mitochondrial DNA" embedded in the hair shaft itself, such tests are not sufficient to reliably identify a person and usually call for additional evidence.

But what if a bit of fashion consciousness could inspire a new forensic technique? In a recent study published in Analytical Sciences, scientists at the Tokyo University of Science, Japan, developed a strategy for identifying criminals from a single strand of hair, leveraging the fact that hair dyes are becoming increasingly common. Their approach involves finding out if two individual strands of hair belong to the same person based on the composition of hair dye products found on them. To do this, they employed two well-known analytical methods: surface-enhanced Raman spectroscopy (SERS) and X-ray fluorescence (XRF) analysis.

Raman spectroscopy is an analytical technique based on the physical phenomenon of Raman scattering, which models certain energetic interactions that occur when photons collide with matter. SERS is a special type of Raman spectroscopy that provides a "structural fingerprint" of a material even when very few molecules are present in the target sample. On the other hand, XRF analysis involves irradiating a material with X-rays and examining the energies of photons re-emitted when the electrons in the sample leave the excited states. XRF analysis is especially useful to determine which metallic elements are present in a material.

The scientists conducted SERS and XRF analyses using portable devices to see if they could distinguish between single strands of hog hairs dyed with different products. Associate Professor Shinsuke Kunimura, who led the study, explains why both analytical methods had to be used in combination, "SERS can easily detect the overall differences in composition between different types of hair dyes, such as permanent, semi-permanent, or natural dyes. However, it is not enough to distinguish between hair coloring products that contain or produce similar dyes. To do this, we also relied on XRF analysis, which can detect the presence of metallic elements used in the ingredients of hair dye products." Using both techniques, the scientists were able to easily distinguish between five different dyes applied to individual strands of hog hair.

Because both analytical methods used are almost non-destructive, the strategy proposed in this study could be used to quickly analyze hairs found in crime scenes on-site before they are sent for DNA analysis. "Our approach provides supportive information for more reliably identifying whose hair was found in a crime scene," remarks first author Momona Horiguchi. "This could help us clarify if someone is a criminal, meaning that our methodology could greatly contribute to forensic investigations."

Overall, this study showcases how analytical tools normally used in chemistry and materials science can be creatively adapted to vastly different fields, such as forensic investigations. Hopefully, in the future, it will prevent criminals from escaping by a hair's breadth!


Story Source:

Materials provided by Tokyo University of Science. Note: Content may be edited for style and length.


Journal Reference:

  1. Momona HORIGUCHI, Shinsuke KUNIMURA. Surface-enhanced Raman Scattering and X-ray Fluorescence Analyses of a Single Hair Colored with a Hair Dye Product. Analytical Sciences, 2020; 36 (11): 1311 DOI: 10.2116/analsci.20P144

Cite This Page:

Tokyo University of Science. "Within a hair's breadth -- forensic identification of single dyed hair strand now possible." ScienceDaily. ScienceDaily, 9 December 2020. <www.sciencedaily.com/releases/2020/12/201209124928.htm>.
Tokyo University of Science. (2020, December 9). Within a hair's breadth -- forensic identification of single dyed hair strand now possible. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2020/12/201209124928.htm
Tokyo University of Science. "Within a hair's breadth -- forensic identification of single dyed hair strand now possible." ScienceDaily. www.sciencedaily.com/releases/2020/12/201209124928.htm (accessed December 21, 2024).

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