Forensic analysis, flow

Eight BDZs among the most frequently encountered in forensic toxicology (clonazepam, desal-kylflurazepam, diazepam, flunitrazepam, lorazepam, midazolam, nordiazepam and oxazepam) were determined in whole blood after solvent extraction with butyl chloride and fast isocratic separation using a C18 (100 x 4.6 mm x 5 (tm) column [61]. The mobile phase was composed of phosphate buffer (35mM, pH 2.1) and acetonitrile (70 30, v/v) and the flow rate was 2mL/min. Within less than 4 min of analysis time, the analytes could be successfully determined starting from therapeutic concentrations. Using HPLC coupled with APCI-MS-MS, Rivera et al. [62] set up a method for the detection of 18 BDZ and metabolites after butyl chloride extraction at alkaline pH in 0.5mL... 

Peroxide explosives are potent explosives that can be made starting from common and easy to obtain raw materials. The analysis of triacetone triperoxide (TATP) and hexamethylenetriper-oxidediamine (HMTD) was successfully carried out by HPLC-APCI-MS in a powder sample as well as in post-blast extracts originating from a forensic case [134]. After RP separation on a C18 column using a methanohwater (75 25 v/v) mobile phase containing ammonium acetate (2.5mM) at a 0.4mL/min flow rate, detection was carried out in positive ion mode. MS-MS analysis of [TATPh-NH4]+ and [HMTD - H]+ as precursor ions was necessary in order to achieve the required sensitivity in the analysis of postblast extracts (LOD 0.8 and 0.08 ng on column, respectively). 

The first section of the book explores emerging novel aspects of HPLC and related separation methods based on the differential velocity of analytes in a liquid medium under the action of either an electric field (capillary electromigration techniques) or a gravitational field (field-flow fractionation). The section focusing on applications highlights four significant areas in which HPLC is successfully employed chiral pharmaceutical, environmental analysis, food analysis, and forensic science. 

Croft, D. J. and Pye, K. (2003). The potential use of continuous-flow isotope-ratio mass spectrometry as a tool in forensic soil analysis A preliminary report. Rapid Commun. Mass Spectrom. 17, 2581-2584. 

See also Enzymes Immobilized Enzymes. Flow Injection Analysis Detection Techniques. Forensic Sciences DNA Profiling. Immunoassays, Techniques Luminescence Immunoassays. Liquid Chromatography Column Technology Instrumentation. 

See alsor. Flow Injection Analysis Principles. Forensic Sciences Overview Arson Residues. Gas Chromatography Overview. Ion-Selective Electrodes Overview. Spectrophotometry Overview. 

See also Blood and Plasma. Clinical Analysis Glucose. Enzymes Immobilized Enzymes Enzyme-Based Electrodes Enzymes in Physiological Samples Industrial Products and Processes. Ethanol. Flow Injection Analysis Principles Detection Techniques. Food and Nutritional Analysis Alcoholic Beverages. Forensic Sciences Alcohol in Body Fluids. Immunoassays, Techniques Enzyme Immunoassays. Lipids Determination in Biological Fluids. Pesticides. Process Analysis Bioprocess Analysis. 

Wujian Miao illustrated a time line of various events in the development of ECL till 2002 (Fig. 1.3) [1]. As the time went on, this field attracted bulk of people to do research on ECL basic theory, emitters, mechanisms, applications, etc. Hence, advancements in the area of ECL increased exponentially over more than 45 years. After a long journey of almost half a century, ECL has now grown to be an incredibly potent analytical technique and been extensively used in many areas, such as criminology, forensic, environment, biomedical, biowarfare agent detection immunoassay [3], etc. This technique has also been effectively employed as a detector of flow injection analysis (FIA), high-performance liquid chromatography (HPLC), capillary electrophoresis (CE), and micro total analysis (pTAS) [13]. 

Chemical imaging is described, including confocal Raman imaging. UV and visible spectroscopy includes innovations such as flow-through sample holders and fiber-optic probes, as well as instruments for analysis of submicroliter volumes and nondestructive analysis for nucleic acid and protein determinations. UV absorption spectral interpretation for organic molecules is covered in depth. Applications described include nucleic acid and protein measurements, spectrophotometric titrations, and new applications in forensic chemistry. Nephelometry, turbidimetry, fluorescence, and phosphorescence are described in detail, including instrumentation and applications. The measurement of color using the CIE system is described with examples. 

While the dual inlet technique is generally the most precise method for stable isotope ratio measurements, the continuous-flow technique offers online sample preparation, smaller sample size requirements, faster and simpler analyses, increased cost-effectiveness, and the possibility of interfacing with other preparation techniques, including elemental analysis, gas chromatography (GC), and liquid chromatography (LC). For these reasons, CF-IRMS is the subject of the majority of research currently being conducted in the field of forensic science [1],... 

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