Analysis of automotive paint layers on plastic substrates using chemical imaging μ-FTIR and O-PTIR microspectroscopy

IF 1.5 4区 医学 Q2 MEDICINE, LEGAL Journal of forensic sciences Pub Date : 2024-06-29 DOI:10.1111/1556-4029.15575
Kendall Wontor MS, Carly Clisham BS, Jessica Hummel BS, James V. Cizdziel PhD
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Abstract

Automobile paint chips are a crucial piece of trace evidence for forensic investigators. This is because automotive paints are composed of multiple layers, including the primer, basecoat, and clearcoat, each of which has its own chemical composition that can vary by vehicle make, model, year, and manufacturing plant. Thus, Fourier-transform infrared (FTIR) spectral databases for automobile paint systems have been established to aid law enforcement in, for example, narrowing search parameters for a suspect's vehicle. Recently, car manufacturers have implemented primers on plastic substrates that are much thinner (~5 μm) than those on metal substrates, making it more difficult to manually separate for analyses. Here, we evaluated FTIR microspectroscopy (μ-FTIR) and optical photothermal infrared spectroscopy (O-PTIR) to chemically image cross sections of paint chips without manually separating the layers. For μ-FTIR, transmission and transflection modes provided the highest quality spectra compared to reflection and μ-ATR analyses. Point analysis was preferable to chemical imaging, as peaks were identified in the point (MCT) detector's lower spectral range that was below the imaging (FPA) detector's cutoff, such as those associated with titanium dioxide. Reduced spectral range can lead to a similar issue in O-PTIR analyses depending on instrument configuration. However, its complementary Raman spectra showed strong titanium dioxide peaks, providing an alternate means of identification. Both techniques are likely to become more relevant as they are non-destructive and avoid manual separation of the layers. O-PTIR is particularly well-suited for analysis of the thin primer layer due to its superior spatial resolution.

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利用化学成像μ-傅立叶变换红外和O-傅立叶变换红外微光谱分析塑料基材上的汽车漆层。
汽车油漆碎片是法医调查人员的重要痕迹证据。这是因为汽车油漆由多层组成,包括底漆、底涂层和清漆,每一层都有自己的化学成分,会因汽车品牌、型号、年份和制造厂的不同而不同。因此,傅立叶变换红外光谱(FTIR)汽车油漆系统数据库已经建立,以帮助执法部门缩小嫌疑犯车辆的搜索范围。最近,汽车制造商在塑料基材上使用的底漆比金属基材上的底漆要薄得多(约 5 μm),因此更难进行人工分离分析。在此,我们对傅立叶变换红外微光谱(μ-FTIR)和光学光热红外光谱(O-PTIR)进行了评估,以对漆片的横截面进行化学成像,而无需手动分离漆层。就 μ-FTIR 而言,与反射和 μ-ATR 分析相比,透射和透射反射模式提供的光谱质量最高。点分析优于化学成像,因为在点(MCT)检测器的较低光谱范围内可以识别出低于成像(FPA)检测器截止点的峰值,例如与二氧化钛相关的峰值。在 O-PTIR 分析中,光谱范围的缩小也会导致类似的问题,这取决于仪器的配置。不过,它的互补拉曼光谱显示了强烈的二氧化钛峰,提供了另一种识别手段。由于这两种技术都是非破坏性的,而且避免了人工分离层,因此可能会变得更加重要。O-PTIR 由于其出色的空间分辨率,特别适合分析薄底漆层。
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来源期刊
Journal of forensic sciences
Journal of forensic sciences 医学-医学:法
CiteScore
4.00
自引率
12.50%
发文量
215
审稿时长
2 months
期刊介绍: The Journal of Forensic Sciences (JFS) is the official publication of the American Academy of Forensic Sciences (AAFS). It is devoted to the publication of original investigations, observations, scholarly inquiries and reviews in various branches of the forensic sciences. These include anthropology, criminalistics, digital and multimedia sciences, engineering and applied sciences, pathology/biology, psychiatry and behavioral science, jurisprudence, odontology, questioned documents, and toxicology. Similar submissions dealing with forensic aspects of other sciences and the social sciences are also accepted, as are submissions dealing with scientifically sound emerging science disciplines. The content and/or views expressed in the JFS are not necessarily those of the AAFS, the JFS Editorial Board, the organizations with which authors are affiliated, or the publisher of JFS. All manuscript submissions are double-blind peer-reviewed.
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