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Technique selection

Nd in samples. Unfortunately, mass spectrometry is not a selective technique. A mass spectrum provides information about the abundance of ions with a given mass. It cannot distinguish, however, between different ions with the same mass. Consequently, the choice of TIMS required developing a procedure for separating the tracer from the aerosol particulates. [Pg.8]

This example demonstrates the most challenging problem of flavor chemistry, ie, each flavor problem may require its own analytical approach however, a sensory analysis is always required. The remaining unknown odorants demand the most sensitive and selective techniques, and methods of concentration and isolation that preserve the sensory properties of complex and often dehcate flavors. Furthermore, some of the subtle odors in one system will be first identified in very different systems, like o-amino acetophenone in weasels and fox grapes. [Pg.6]

Cladding may be less expensive than selective electro deposition when coatings greater than 1 p.m of a noble metal are required, but may be more expensive than electro deposition for thinner coatings. Selective techniques are most easily used for sheet metal substrates that are to be machine stamped and formed into contacts. Clad noble metals are considerably more ductile (and less hard) than comparable electro deposits and, therefore, are better suited to forming operations. Contacts that are made into separate parts from rod by screw machining are usually coated on all exposed surfaces by barrel electroplating. [Pg.31]

Hazard analysis (HAZAN) is a quantitative way of assessing the likelihood of failure. Other names associated with this technique are risk analysis, quantitative risk assessment (QRA), and probability risk assessment (PRA). Keltz [44] expressed the view that HAZAN is a selective technique while HAZOP can be readily applied to new design and major modification. Some limitations of HAZOP are its inability to detect every weakness in design such as in plant layout, or miss hazards due to leaks on lines that pass through or close to a unit but cany material that is not used on that unit. In any case, hazards should... [Pg.996]

R. C. Allen and B. Budowle. Gel electrophoresis of proteins and nucleic acids selected techniques. Walter de Gruyter, Berlin (1994). [Pg.298]

The dream of any bioinorganic chemist working on biological systems is to have a sensitive, selective technique with which it is possi-... [Pg.447]

There comes a time when sequential improvements in penicillin productivity obtained by standard strain improvement techniques (physical and chemical mutagenesis in conjunction with a variety of selection techniques that apply pressure for high-yielding variants) become subject to rate-limiting returns. At first, it is easy to double the titre with each campaign later in the genealogy even a 5% improvement would be regarded as excellent. [Pg.156]

Complementary to other methods that constimte a basis for the investigation of molecular dynamics (Raman scattering, infrared absorption, and neutron scattering), NIS is a site- and isotope-selective technique. It yields the partial density of vibrational states (PDOS). The word partial refers to the selection of molecular vibrations in which the Mossbauer isotope takes part. The first NIS measurements were performed in 1995 to constitute the method and to investigate the PDOS of... [Pg.516]

In summary, NIS provides an excellent tool for the study of the vibrational properties of iron centers in proteins. In spectroscopies like Resonance Raman and IR, the vibrational states of the iron centers are masked by those of the protein backbone. A specific feature of NIS is that it is an isotope-selective technique (e.g., for Fe). Its focus is on the metal-ligand bond stretching and bending vibrations which exhibit the most prominent contributions to the mean square displacement of the metal atom. [Pg.534]

Because neutron and y-radiation are highly penetrating, the method is virtually matrix-independent. NAA is a bulk technique. NAA can also be a selective technique, because appropriate choice of experimental parameters (such as irradiation and decay times), and use of neutrons of varying energies, can discriminate against unwanted elements. [Pg.664]

Any attempt to give an up-to-date account of physical methods of chemical analysis of materials must suffer from the problem of aiming at a moving target. In the chapters which follow I have attempted to illustrate the selected techniques with examples taken from the recent literature of the subject. However I am aware that there is constant instrument development and improvement, so that what follows is at best only a description of analytical equipment that is commercially available at the present time. [Pg.224]

Many other selective techniques such as MS, FT-IR, ICP-MS, and electrochemical detection have also been used and several reviews of FIA applications in pharmaceutical analysis appear in the literature.214-216 Several articles are dedicated to pharmaceutical analysis using SIA.217218 FIA and SIA have been applied to high-throughput analysis (up to 200 samples per hour with good... [Pg.269]

Since 1974, when the first commercially available HPLC electrochemical detector was introduced, an overwhelming number of articles on design, performance, theory and application have appeared in scientific literature. Today HPLC-EC is widely accepted as a sensitive and selective technique for the analysis of electro-active substances. [Pg.3]

The analytes are typically extracted from the biological matrix using solvent extraction or solid phase extraction (SPE). Most analytes require some form of chemical derivatization prior to analysis by GC-MS techniques, whereas with LC-MS-MS no further treatment of the extract is required. The extracts obtained from urine are relatively dirty because of the many endogenous compounds that are present. It is for this reason that the very selective techniques of GC-MS-MS, GC-HRMS, or LC-MS-MS are required to detect some of the prohibited substances that have low detection levels. [Pg.227]

When the problem has been defined and needed background information has been studied, it is time to consider which analytical methods will provide the data you need to solve the problem. In selecting techniques, you can refer back to the other chapters in this book. For example, if you want to measure the three heavy metals (Co, Fe, and Ni) that were suspect in the Bulging Drum Problem, you might immediately think of atomic absorption or inductively coupled plasma atomic emission spectroscopies and reread Chapter 8 of this book. How would you choose between them Which would be more accurate More precise Does your lab have both instruments Are they both in working order What if you have neither of them What sample preparation would be needed ... [Pg.814]

The applicability of this selection technique depends on the anisotropy and the relative orientation of the various interaction tensors. Frequently occurring situations in transition metal complexes suitable for treatment by this technique are16,76) ... [Pg.25]

Furthermore, the method of orientation selection can only be applied to systems with an electron spin-spin cross relaxation time Tx much larger than the electron spin-lattice relaxation time Tle77. In this case, energy exchange between the spin packets of the polycrystalline EPR spectrum by spin-spin interaction cannot take place. If on the other hand Tx < Tle, the spin packets are coupled by cross relaxation, and a powder-like ENDOR signal will be observed77. Since T 1 is normally the dominant relaxation rate in transition metal complexes, the orientation selection technique could widely be applied in polycrystalline and frozen solution samples of such systems (Sect. 6). [Pg.27]

In many planar metal complexes it is not possible to record an ENDOR spectrum which only contains contributions from Bo orientations in the complex plane. This is due to the fact that in the powder EPR spectrum the high- or low-field turning points may arise from extra absorption peakssl which do not correspond to directions of the principal axes. ENDOR spectra observed near the in-plane region of such a powder EPR spectrum are due to molecules oriented along a large number of B0 directions (in- and out-of-plane), so that the orientation selection technique is no longer effective. [Pg.27]

Many technicians may not be famihar with terms such as sublingual (under the tongue), buccal (between the cheek and gingiva), otic, and so on. A clear description of each of these nontraditional routes (i.e., other than gavage routes) should be discussed with technicians, and instructions may also be written down and given to them. Demonstrations are often useftd to illustrate selected techniques of administration (e.g., to use an inhaler or nebulizer). Some chemicals must be placed by technicians into body orifices (e.g., medicated intrauterine devices such as Proges-terset). [Pg.467]

See other pages where Technique selection is mentioned: [Pg.2487]    [Pg.180]    [Pg.1722]    [Pg.2429]    [Pg.12]    [Pg.271]    [Pg.462]    [Pg.29]    [Pg.11]    [Pg.474]    [Pg.402]    [Pg.457]    [Pg.18]    [Pg.55]    [Pg.136]    [Pg.38]    [Pg.58]    [Pg.643]    [Pg.466]    [Pg.162]    [Pg.397]    [Pg.82]    [Pg.66]    [Pg.9]    [Pg.311]    [Pg.32]   
See also in sourсe #XX -- [ Pg.413 ]



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Selected techniques

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