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Compounds for Physical Methods

3D = three-dimensional GC = gas chromatography MIN-LP = mixed integer nonlinear programming QSAR = quantitative structure-activity relationships. [Pg.700]

The space of chemical compound structures being considered in the design the search space can be reduced either by eliminating various types of compounds or by using an incomplete description of the compounds so that several compounds are collapsed into one. [Pg.700]

Parameters describing the effect of individual groups (substructures) on the physical and thermodynamic properties of a chemical compound. Group contribution methods usually determine properties as linear combinations of group contributions. [Pg.700]

Empirical (and thus not rigorous or fail-safe) guidelines used to guide (focus) or prune a search space. [Pg.700]

Optimization with nonlinear constraints and both continuous [Pg.700]

Artificial Intelligence in Chemistry Chemometrics Multivariate View on Chemical Problems Combinatorial Chemistry Design of Compounds for Physical Methods Genetic and Evolutionary Algorithms Machine Learning Techniques in Chemistry Neural Networks in Chemistry Partial Least Squares Projections to Latent Structures (PLS) in Chemistry Protein Folding and Optimisation... [Pg.1125]

Separations based upon differences in the physical properties of the components. When procedures (1) or (2) are unsatisfactory for the separation of a mixture of organic compounds, purely physical methods may be employed. Thus a mixture of volatile liquids may be fractionally distilled (compare Sections 11,15 and 11,17) the degree of separation may be determined by the range of boiling points and/or the refractive indices and densities of the different fractions that are collected. A mixture of non-volatile sohds may frequently be separated by making use of the differences in solubilities in inert solvents the separation is usually controlled by m.p. determinations. Sometimes one of the components of the mixture is volatile and can be separated by sublimation (see Section 11,45). [Pg.1092]

In work with the indifferent compounds, the physical methods already enumerated are generally of primary importance. Chemical reactions are also available. For example, a mixture boiling... [Pg.183]

Peroxide Formation. Except for the methyl alkyl ethers, most ethers tend to absorb and react with oxygen from the air to form unstable peroxides that may detonate with extreme violence when concentrated by evaporation or distillation, when combined with other compounds that give a detonable mixture, or when disturbed by heat, shock, or friction. Appreciable quantities of crystalline soHds have been observed as gross evidence for the formation of peroxides, and peroxides may form a viscous Hquid in the bottom of ether-fiHed containers. If viscous Hquids or crystalline soHds are observed in ethers, no further tests for the detection of peroxides are recommended. Several chemical and physical methods for detecting and estimating peroxide concentrations have been described. Most of the quaHtative tests for peroxides are readily performed and strongly recommended when any doubt is present (20). [Pg.427]

Details of bond lengths and bond angles for all the X-ray structures of heterocyclic compounds through 1970 are listed in Physical Methods in Heterocyclic Chemistry , volume 5. This compilation contains many examples for five-membered rings containing two heteroatoms, particularly pyrazoles, imidazoles, Isoxazoles, oxazoles, isothlazoles, thlazoles, 1,2-dlthloles and 1,3-dlthloles. Further examples of more recent measurements on these heterocyclic compounds can be found in the monograph chapters. [Pg.8]

The modern electronic industry has played a very important role in the development of instrumentation based on physical-analytical methods As a result, a rapid boom in the fields of infrared, nuclear magnetic resonance (NMR), Raman, and mass spectroscopy and vapor-phase (or gas-liquid) chromatography has been observed. Instruments for these methods have become indispensable tools in the analytical treatment of fluonnated mixtures, complexes, and compounds The detailed applications of the instrumentation are covered later in this chapter. [Pg.1023]

This chapter will provide an overview, illustrated with recent examples, of some applications of the most commonly used physical methods for the characterization of chalcogen-nitrogen compounds. [Pg.30]

The discussion of the structure of the nitrones and the hydrazones received less attention. With the increased application of physical methods to structural problems, the three-membered ring structures for these compounds lost much of their attraction. The problem of the structure of the nitrones was satisfactorily solved with the open-chain A -oxide formulation. The compounds originally designated as diaziridines (2) were partly reformulated with the open-chain hydra-zone structures and partly were left without a. satisfactory proof of structure. [Pg.84]

See other pages where Compounds for Physical Methods is mentioned: [Pg.700]    [Pg.701]    [Pg.702]    [Pg.703]    [Pg.704]    [Pg.705]    [Pg.706]    [Pg.707]    [Pg.1132]    [Pg.1578]    [Pg.3362]    [Pg.3443]    [Pg.700]    [Pg.701]    [Pg.702]    [Pg.703]    [Pg.704]    [Pg.705]    [Pg.706]    [Pg.707]    [Pg.1132]    [Pg.1578]    [Pg.3362]    [Pg.3443]    [Pg.33]    [Pg.16]    [Pg.19]    [Pg.1290]    [Pg.34]    [Pg.95]    [Pg.487]    [Pg.513]    [Pg.539]    [Pg.596]    [Pg.590]    [Pg.1026]    [Pg.252]    [Pg.83]    [Pg.381]    [Pg.9]    [Pg.209]    [Pg.912]    [Pg.3]    [Pg.126]    [Pg.405]    [Pg.139]    [Pg.42]    [Pg.586]   


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