Description |
1 online resource (576 p.) |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
Bibliography |
Includes bibliographical references and index. |
Contents |
Front Cover -- Chemical Analysis for Forensic Evidence -- Chemical Analysis for: Forensic Evidence -- Copyright -- Contents -- About the author -- Preface -- Acknowledgments -- Disclaimer: -- Reader guideline -- Learning objectives -- 1 -- An introduction to forensic analytical chemistry -- 1.1 What will you learn? -- 1.2 Definitions -- 1.3 Questions of interest to a legal system -- 1.4 Forensic science principles -- Further reading -- 2 -- Analytical chemistry in the forensic laboratory -- 2.1 What will you learn? -- 2.2 Analytical chemistry in the forensic laboratory |
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2.3 Forensic expertise areas -- Illicit drugs -- Forensic toxicology -- Fire debris and ignitable liquids analysis -- Explosions and explosives -- Microtraces: gunhot residues -- Microtraces: glass, paint, and fibers -- Forensic environmental investigations -- Fingermarks -- Questioned documents -- Crime scene investigation -- Further reading -- 3 -- Sampling and sample preparation -- 3.1 What will you learn? -- 3.2 Sampling and sample preparation in analytical chemistry -- 3.3 Statistical sampling protocols: how many samples do we analyze? |
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3.4 Sample preparation: ignitable liquid residue sampling in fire debris analysis -- Further reading -- 4 -- Qualitative analysis and the selectivity dilemma -- 4.1 What will you learn? -- 4.2 Qualitative analysis in forensic chemistry -- 4.3 Chemical identification of illicit drugs -- 4.4 The NPS challenge: addressing the selectivity dilemma -- Further reading -- 5- Quantitative analysis and the legal limit dilemma -- 5.1 What will you learn? -- 5.2 Quantitative analysis in forensic chemistry -- 5.3 Forensic toxicology: trace level quantitation of small molecules in complex biomatrices |
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Single quad mass spectrometer -- Ion trap mass spectrometer -- Triple quad mass spectrometer -- Time of flight mass spectrometer -- Orbitrap mass spectrometer -- Hyphenated systems -- Sample preparation -- LC separation -- MS analysis -- 5.4 Measurement uncertainty: addressing the legal limit dilemma -- 6 -- Chemical profiling, databases, and evidential value -- 6.1 What will you learn? -- 6.2 Criminalistics is the science of individualization -- 6.3 A chemical impurity profiling method for the organic explosive TNT -- 6.4 Bayes theory and the likelihood ratio |
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6.5 Building a score-based model for the forensic comparison of chemical impurity profiles -- Further reading -- 7 -- Forensic reconstruction through chemical analysis -- 7.1 What will you learn? -- 7.2 Forensic explosives investigation -- 7.3 Isotope ratio mass spectrometry (IRMS) -- 7.4 Chemical profiling and synthesis reconstruction of TATP with IRMS -- 7.5 Human provenancing: you are what you eat and drink -- Further reading -- 8 -- From data to forensic insight using chemometrics -- 8.1 What will you learn? -- 8.2 Library match scores and ROC curves |
Note |
8.3 Exploring NPS EI mass spectra with PCA |
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Description based on online resource; title from digital title page (viewed on February 13, 2023). |
Subject |
Chemistry, Forensic.
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Analytical chemistry.
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Chimie légale.
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Chimie analytique.
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chemical analysis.
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Analytical chemistry
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Chemistry, Forensic
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Other Form: |
Print version: van Asten, Arian Chemical Analysis for Forensic Evidence San Diego : Elsevier,c2022 9780128207154 |
ISBN |
0128207213 electronic book |
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9780128207215 electronic book |
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9780128207154 |
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0128207159 |
Standard No. |
AU@ 000073323678 |
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UKMGB 020849990 |
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AU@ 000073476081 |
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