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High-performance liquid chromatography HPLC measurements

Measurements. High performance liquid chromatography (HPLC) measurements were performed by using C18 column with a Shimadzu LC-9A and SPD-6A (UV spectrophotometric detector). Gas chromatography (GC) measurements were performed by using a OV 101 colunm with Simadzu GC-7A with a flame ionization detector. Inductively coupled plasma (ICP) spectrometric measurements were carried out by using a SII SPS1500VR plasma Spectrometer. Infrared (IR) spectra were recorded on a JASCO FTIR-8100 Fourier transform infrared spectrophotometer. NMR spectra were recorded on a JEOL FX-90Q NMR spectrometer and homo J-resolved NMR spectra and homonuclear... [Pg.97]

More recently, the reaction advancement of resole syntheses (pH = 8 and 60°C) was monitored using high-performance liquid chromatography (HPLC), 13C NMR, and chemical assays.55,56 The disappearance of phenol and the appearances of various hydroxymethyl-substituted phenolic monomers and dimers have been measured. By assessing the residual monomer as a function of reaction time, this work also demonstrated the unusually high reactivity of 2,6-dihydroxymethyl-phenol. The rate constants for phenolic monomers toward formaldehyde substitution have been measured (Table 7.6). [Pg.402]

In 1979, it was stated that poiybrominated aromatic ethers have received little attention (ref. 1). That statement is still applicable. Analyses to characterize this class of commercial flame retardants have been performed using UV (refs. 1-2), GC (refs. 1-6), and GC-MS (refs. 1-4). The bromine content of observed peaks was measured by GC-MS, but no identification could be made. The composition of poiybrominated (PB) diphenyl ether (DPE) was predicted from the expected relationship with polyhalogenated biphenyl, a class which has received extensive attention. NMR (refs. 3-6) was successfully used to identify relatively pure material which had six, or fewer, bromine atoms per molecule. A high performance liquid chromatography (HPLC) method described (ref. 1) was not as successful as GC. A reversed phase (RP) HPLC method was mentioned, but no further work was published. [Pg.399]

While the apparent molecular weight was about 47,000 g/mol or daltons (Da) by mobUify on SDS-PAGE, separate analysis by sedimentation equilibrium measurements and capillary high-performance liquid chromatography (HPLC) in SDS buffer gave values near 23,000 Da. [Pg.257]

The use of direct UV spectrophotometry to measure sample concentrations in pharmaceutical research is uncommon, presumably due to the prevalence and attractiveness of high-performance liquid chromatography (HPLC) and liquid chromatography/mass spectrometry (LC/MS) methods. Consequently, most researchers are unfamiliar with the value of UV detection, mainly that it is generally much faster than other methods - a very important asset in high-throughput screening. [Pg.63]

Consider one small molecule, phenylalanine. It is an essential amino acid in our diet and is important in protein synthesis (a component of protein), as well as a precursor to tyrosine and neurotransmitters. Phenylalanine is one of several amino acids that are measured in a variety of clinical methods, which include immunoassay, fluorometry, high performance liquid chromatography (HPLC see Section 4.1.2) and most recently MS/MS (see Chapter 3). Historically, screening labs utilized immunoassays or fluorimetric analysis. Diagnostic metabolic labs used the amino acid analyzer, which was a form of HPLC. Most recently, the tandem mass spectrometer has been used extensively in screening labs to analyze amino acids or in diagnostic labs as a universal detector for GC and LC techniques. Why did MS/MS replace older technological systems The answer to this question lies in the power of mass spectrometer. [Pg.289]

In this section we will review the application of near-IR system instrumentation to the most commonly encountered fluorescence measurements such as steady-state spectra, excited state lifetimes, anisotropy, microscopy, multiplexing, high-performance liquid chromatography (HPLC), and sensors. [Pg.378]

Microdialysis is a sampling technique that must be coupled with an analytical method to identify and quantify chemical components of the dialysate. The samples can be analyzed immediately upon collection (i.e., online), or they can be stored (—80°C) for future analysis. Only analytical techniques sensitive enough to measure both small sample volumes and low concentrations of substances can be used to measure compounds in dialysate samples. High-performance liquid chromatography (HPLC) or capillary electrophoresis (CE) combined with ultraviolet (UV), electrochemical (EC), or laser-induced fluorescence (LIF)... [Pg.222]

Raman often is evaluated as an alternative to an existing high performance liquid chromatography (HPLC) method because of its potential to be noninvasive, fast, simple to perform, and solvent-free. Raman was compared to HPLC for the determination of ticlopidine-hydrochloride (TCL) [43], risperidone [44] in film-coated tablets, and medroxyprogesterone acetate (MPA) in 150-mg/mL suspensions (DepoProvera, Pfizer) [45] it was found to have numerous advantages and performance suitable to replace HPLC. In an off-line laboratory study, the relative standard deviation of the measurement of the composition of powder mixtures of two sulfonamides, sulfathiazole and sulfanilamide, was reduced from 10-20% to less than 4% by employing a reusable, easily prepared rotating sample cell [46]. [Pg.209]


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Chromatography HPLC)

HPLC, High performance

High-performance liquid chromatography HPLC)

High-performance liquid measurement

Liquid HPLC)

Liquid chromatography HPLC)

Liquids measurement

Liquids measuring

Measures performance

Performance measurement

Performance measures measurement

Performance, measuring

Performing measurements

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