Handbook of Analytical Techniques for Forensic Samples: Current and Emerging Developments

Front Matter
Copyright
Dedication
Preface
Introduction to chemical analysis of forensic samples
	Introduction
	Chemical analytical techniques used for the analysis of evidence
		Spectroscopic techniques
			UV-visible and fluorescence spectroscopy
			Infrared and near-infrared techniques
			Nuclear magnetic resonance spectroscopy
			Raman spectroscopy
			Atomic emission and absorption spectroscopy
		Chromatographic techniques
			High performance liquid chromatography
			Gas chromatography
			High performance thin layer chromatography
			Hyphenated techniques
		Microscopic techniques
			Optical microscopes
			Electron microscopes
			Atomic force microscope
			Energy dispersive X-ray coupled microscopy in forensic science
		Emerging analytical techniques
			Mass spectrometry
			X-ray diffraction
			Nanotechnology
			Lab-on-chip devices
	Conclusion
	References
Forensic sampling and sample preparation techniques
	Introduction
	Types of forensic samples
		Physical forensic samples
			Classification
			Collection, preservation, and handling
		Chemical forensic samples
			Classification
			Collection, preservation, and handling
		Biological forensic samples
			Classification
			Collection, preservation, and handling
	Preparation techniques for forensic samples for instrumental analyses
		Physical forensic samples
			Spectroscopic analyses
			Chromatographic analyses
			Microscopic analyses
			Other analyses
		Chemical forensic samples
			Spectroscopic analyses
			Chromatographic analyses
			Microscopic analyses
			Other analyses
		Biological forensic samples
			Spectroscopic analyses
			Chromatographic analyses
			Microscopic analyses
			Other analyses
	Conclusion
	References
UV-visible and fluorescence spectroscopy for forensic samples
	Introduction
	Principle and theory of UV-visible and fluorescence spectroscopy
		UV-visible spectroscopy
		Principle of fluorescence spectroscopy
	Instrumentation of UV-visible and fluorescence spectroscopy
	Analysis of forensic samples using UV-visible and fluorescence spectroscopy
		Body fluid
		Counterfeit beverages
		Drugs
		Fibers
		Fingerprints
		Paint
		Petroleum products
		Questionable documents
	Conclusion
	References
FTIR and NIR spectroscopy in forensic science
	Introduction
	Principle and theory of infrared and near-infrared spectroscopy
		Principle of infrared spectroscopy
		Principle and theory of NIR spectroscopy
	Instrumentation of IR and NIR spectroscopy
		Instrumentation of IR spectroscopy
		Instrumentation of NIR spectroscopy
	Spectrum analysis in FTIR and NIR
	FTIR and NIR analysis of forensic samples
		Samples of biological origin
		Inks and questionable documents
		Explosives and gunshot residue
		Illicit and counterfeit drugs
		Bank notes
		Paint
	Conclusion
	References
Atomic absorption and emission spectrometry in forensic analysis
	Introduction
	Principle and theory of atomic absorption and emission spectroscopy
	Instrumentation of atomic absorption and atomic emission spectroscopy
		Atomic absorption spectroscopy
		Instrumentation of atomic emission spectroscopy
	Analysis of forensic samples via AAS and AES
		Biological samples
		Drugs
		Explosives, gunshot residue, and ammunition
		Textile fibers
		Glass
		Ignitable materials
		Inks and paper
		Soil
	Conclusion
	References
NMR spectroscopy for forensic samples
	Introduction
	Principle and instrumentation of NMR spectroscopy
		Types of NMR
		Instrumentation of NMR spectroscopy
	NMR in the world of forensic science
		Drug analysis
		Detection of explosives
		Analysis of postmortem changes
		Examination of xenobiotics
		Identification of body fluids
		Identification of counterfeit products
	Conclusion
	References
Raman spectroscopy in forensic science
	Introduction
	Principle of Raman spectroscopy
		Instrumentation of Raman spectrometer
	Raman spectroscopy for forensic sample analysis
		Samples of biological origin
		Recreational drugs
		Paints, dyes, and pigments
		Explosives and gunshot residue
		Fibers
		Soil
		Inks in questionable documents
	Conclusion
	References
HPLC for the toxicological analysis of forensic samples
	Introduction
	High performance liquid chromatography: An insight
		Principle
		Classification
			On the basis of separation mode
			On the basis of principle of separation
			On the basis of scale of operation
			On the basis of type of elution
			On the basis of type of analysis
		Instrumentation
			Solvent delivery system
			Pumps
			Sample injector
			Guard column
			Analytical column
			Detector
			Data processing unit
	Applications of high-performance liquid chromatography in forensic toxicology
		HPLC analysis of drugs
		HPLC analysis of pesticides
		HPLC in analysis of plant toxins and alkaloids
	Conclusion
	References
Gas chromatography in forensic science
	Introduction
	Principle and theory of gas chromatography
	Instrumentation of gas chromatography
	Forensic sample analysis via gas chromatography
		Alcohol and other volatile organic compounds
		Drugs
		Explosives and ignitable materials
		Fingerprints
		Inks
		Paints
		Toxins
	Conclusion
	References
HPTLC in forensic science
	Introduction
	Principle and theory of HPTLC
	HPTLC instrumentation
	HPTLC analysis of forensic samples
		Drugs
		Explosives
		Inks
		Dyes in fibers
		Toxins
	Conclusion
	References
Hyphenated techniques for forensic sample analysis
	Introduction
	Hyphenated techniques
		Gas chromatography-mass spectrometry
		Hyphenated liquid chromatography techniques
			LC-MS
			LC-IR
			LC-NMR
		IMS-MS
		HPTLC hyphenated techniques
			HPTLC-FTIR
			HPTLC-MS
	Hyphenated technique-mediated analysis of forensic samples
		Drugs
		Explosives
		Fibers
		Food products
		Inks and questionable documents
		Toxins
	Conclusion
	References
Optical microscopy for forensic samples
	Introduction
	Fundamentals of optical microscopy
	Types of optical compound microscopes
		Bright-field microscope
		Phase contrast microscope
		Fluorescence microscope
		Confocal microscope
		Polarizing microscope
		Stereomicroscope
	Optical microscopic analysis of forensic samples
		Biological samples
		Fibers
		Explosives
		Glass
		Paint
		Questionable documents
		Soil and minerals
	Conclusion
	References
Electron microscopy for forensic samples
	Introduction
	Principle and theory of electron microscopes
		Theory of scanning electron microscopy
		Theory of transmission electron microscopy
	Instrumentation of electron microscopes
		Sample preparation for electron microscope
		Modes of SEM and TEM
	Electron microscopy-based forensic investigations
		Biological evidence
		Anthropogenic evidence
		Geological evidence
	Conclusion
	References
Atomic force microscopy for forensic samples
	Introduction
	Principle, working, and instrumentation of atomic force microscopy
		Principle of atomic force microscopy
		Instrumentation and modes of atomic force microscopy
	Atomic force microscopy for forensic investigations
		Age determination of bloodstains
		Hair examination
		Plastic wrapping material analysis
		Examination of textile fibers
		SIM card analysis
		Explosives and gunshot residue analysis
		Fingermark examination
		Analysis of questionable documents
	Conclusion
	References
Energy dispersive X-ray (EDX) coupled microscopy in forensic science
	Introduction
	Principle and theory of EDX
	Instrumentation of EDX
		Detectors in EDX
	EDX-coupled microscopic analysis of forensic samples
		Biological samples
		Explosives
		Glass
		Gunshot residue
		Paints
		Soil
		Toxins
	Conclusion
	References
Mass spectrometry in forensic chemistry
	Introduction
	Principle and theory of mass spectrometry
	Overview of mass spectrometry
		Sources of ionization
		Mass analyzers
		Detectors
	Applications of mass spectrometry for forensic investigations
		Analysis of biological samples
		Examination of drugs and foods
		Explosives and gunshot residue analysis
		Fiber analysis
		Detection of inks in questionable documents
		Investigation of oil spills and petroleum products
	Conclusion
	References
X-ray diffraction for forensic samples
	Introduction
	Principle and theory of X-ray diffraction
		Theory of X-ray
		Theory of X-ray diffraction
	Instrumentation of X-ray diffraction
		Types of X-ray diffraction
	X-ray diffraction for forensic evidence analysis
		Anthropogenic evidence
		Geological evidence
		Biological evidence
	Conclusion
	References
Lab-on-chip devices
	Introduction
	Architecture of a lab-on-chip device
		Components of a lab-on-chip device
		Fabrication techniques of lab-on-chip devices
	Forensic applications of lab-on-chip devices
		Analysis of DNA
		Identification of biological fluids
		Detection of explosives
		Anticounterfeiting
		Detection of illicit drugs
	Conclusion
	References
Nanotechnology in forensic science
	Introduction
	An insight into the world of nanotechnology
		Types of nanomaterials and their characterization techniques
		Types of synthetic approaches of nanomaterials
		Functionalization strategies of nanomaterials
	Nanotechnology-mediated forensic investigations
		Detection of explosives and gunshot residues
		Biosensors
		Visualization of latent fingermarks
		Detection of DNA and illicit drugs
		Counterfeiting prevention and homeland security
		Nanotechnology-based tracker
	Conclusion
	References
Ethics and legal issues of forensic analysis techniques
	Introduction
	Legal issues in forensic science
		Legal aspects: From crime scene to court
			Crime investigation procedure: Legal aspects
			Subpoena: Legal aspects of submission of evidence
			Evidence: Rules and legal aspects
			Legal aspects of reports issued by forensic laboratories
			Testimony by expert witnesses: Legal aspects
		Legal aspects in computer and digital forensics
			Digital evidence: Admissibility in court
			Computer forensics and legal issues
		Legal aspects in DNA forensics
			DNA forensics: Legal issues
	Ethics and theories of ethics
		Models of codes of ethics
	Code of ethics in different fields of forensic science
		Ethics in forensic examination
		Ethics in DNA analysis
		Ethics in forensic psychiatry
	Conclusion
	References
Accreditations for forensic science laboratories
	Introduction
	History and need of accreditation in forensic science
	Accreditation in forensic science
		Process of accreditation
		Digital forensics division
		Crime scene investigators
		DNA division
		Forensic toxicology division
	Conclusion
	References
Quality control and quality assurance in forensic science laboratories
	Introduction
	Quality assurance in forensic science
		Organizations for quality management in forensic science
		Aspects of quality assurance in forensic science
	Quality assurance in different fields of forensic science
		Digital forensics
		Forensic biology and toxicology
		Questionable document analysis
		Clinical and forensic pathology
	Quality control for the analysis of forensic samples
		Alcohol
		Cartridge case
		DNA
		Drugs
		Entomological evidence
		Hair
		Inks
	Conclusion
	References
Concluding notes
	Introduction
	Analytical techniques and forensic science
	Rereads of the book
	Conclusion
	References
Exercise 1: UV-visible spectroscopic analysis of forensic samples (chemical and biological)
	Aim
	Principle
	Sample preparation and working procedure
		Chemical forensic sample
		Biological forensic sample
Exercise 2: Fluorescence spectroscopic analysis of forensic samples (biological)
	Aim
	Principle
	Sample preparation and working procedure
		Saliva
		Blood
Exercise 3: FTIR analysis of forensic samples (chemical, physical, and biological)
	Aim
	Principle
	Sample preparation and working procedure
		Chemical forensic sample
		Physical forensic sample
		Biological forensic sample
Exercise 4: NIR spectroscopic analysis of forensic samples (chemical and biological)
	Aim
	Principle
	Sample preparation and working procedure
		Chemical forensic sample
		Biological forensic sample
Exercise 5: Atomic absorption spectrometric analysis of forensic samples (chemical and biological)
	Aim
	Principle
	Sample preparation and working procedure
		Chemical forensic sample
		Biological forensic sample
Exercise 6: Optical microscopic analysis of physical and biological forensic samples
	Aim
	Principle
	Sample preparation and working procedure
		Physical forensic sample
		Biological forensic sample
Exercise 7: SEM analysis of physical and biological forensic samples
	Aim
	Principle
	Sample preparation and working procedure
		Physical forensic sample
		Biological forensic sample
Exercise 8: TEM analysis of physical and biological forensic samples
	Aim
	Principle
	Sample preparation and working procedure
		Physical forensic sample
		Biological forensic sample
Exercise 9: AFM analysis of physical and biological forensic samples
	Aim
	Principle
	Sample preparation and working procedure
		Physical forensic sample
		Biological forensic sample
Exercise 10: Mass spectrometric analysis of
forensic samples (chemical and biological)
	Aim
	Principle
	Sample preparation and working procedure
		Chemical forensic sample
		Biological forensic sample
Index
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	D
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	Q
	R
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