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Types of compound

Apolar stationary phases having no dipolar moments, that is their center of gravities of their positive and negative electric charges coincide. With this type of compound, the components elute as a function of their increasing boiiing points. The time difference between the moment of injection and the moment the component leaves the column is called the retention time. [Pg.21]

Two types of compounds having different functions are used detergents and dispersants. [Pg.358]

For other types of compounds which give the iodoform reaction, see H. Booth and B. C. Saunders, Chem, and Industry 1950. 824. [Pg.91]

As apparent from the contributing resonance structures, both mesoionic systems contain an azomethinylide contribution, accounting for the reaction with representative dipolarenophiles to give cycioadducts such as 3 or 4 (Scheme 4). The cydoadditions and extrmsion reactions of the adducts have been the mam object of investigation. since previous reviews on me.soionic thiazoles (2.9V Results appearing since 1969 and before June 1976 are reported for each type of compound in this chapter. Tables VIIRl-5 contain all mesoionic thiazoles described before June 1976. [Pg.3]

However, benzylidene derivatives show a strong bathochromic shift in comparison with alkylidene derivatives. Thus absorption is a result of the whole conjugated system that is comparable to that of the quinoid dyes. The color of this type of compound is sensitive to acids and bases. [Pg.251]

Present day techniques for structure determination in carbohydrate chemistry are sub stantially the same as those for any other type of compound The full range of modern instrumental methods including mass spectrometry and infrared and nuclear magnetic resonance spectroscopy is brought to bear on the problem If the unknown substance is crystalline X ray diffraction can provide precise structural information that m the best cases IS equivalent to taking a three dimensional photograph of the molecule... [Pg.1052]

Substitutive nomenclature (Section 4 2) Type of lUPAC nomenclature in which a substance is identified by a name ending in a suffix charactenstic of the type of compound 2 Methylbutanol 3 pentanone and 2 phenylpropanoic acid are examples of substitutive names... [Pg.1294]

Ai,A/-bis(hydroxymethyl) formamide [6921-98-8] (21), which in solution is in equiUbrium with the monomethylol derivative [13052-19-2] and formaldehyde. With ben2aldehyde in the presence of pyridine, formamide condenses to yield ben2yhdene bisformamide [14328-12-2]. Similar reactions occur with ketones, which, however, requite more drastic reaction conditions. Formamide is a valuable reagent in the synthesis of heterocycHc compounds. Synthetic routes to various types of compounds like imida2oles, oxa2oles, pyrimidines, tria2ines, xanthines, and even complex purine alkaloids, eg, theophylline [58-55-9] theobromine [83-67-0], and caffeine [58-08-2], have been devised (22). [Pg.508]

The largest part of the subject is the nomenclature of organic compounds, simply because there are so many of them, and of such diverse nature. The types of compounds and stmctures differ considerably among organic, inorganic, and biochemical substances, and each of their respective nomenclatures has developed somewhat differendy, although not independendy. Macromolecular nomenclature and pharmaceutical nomenclature have practical requirements of their own. It is therefore appropriate to treat each of these several areas separately. [Pg.114]

Elemental composition, ionic charge, and oxidation state are the dominant considerations in inorganic nomenclature. Coimectivity, ie, which atoms are linked by bonds to which other atoms, has not generally been considered to be important, and indeed, in some types of compounds, such as cluster compounds, it caimot be appHed unambiguously. However, when it is necessary to indicate coimectivity, itaUcized symbols for the connected atoms are used, as in trioxodinitrate(A/,A/), O2N—NO . The nomenclature that has been presented appHes to isolated molecules (or ions). Eor substances in the soHd state, which may have more than one crystal stmcture, with individual connectivities, two devices are used. The name of a mineral that exemplifies a particular crystal stmcture, eg, mtile or perovskite, may be appended. Alternatively, the crystal stmcture symmetry, eg, rhombic or triclinic, may be cited, or the stmcture may be stated in a phrase, eg, face-centered cubic. [Pg.117]

During the most active period of investigation of sulfanilamide derivatives, 1935—1944, for systemic bacterial infections, the antimycobacterial activity of 4,4 -dianainodiphenylsulfone [80-08-8] (DDS, dapsone) was discovered (14). Although neither this compound nor its derivatives proved to be clinically usehil for human tuberculosis, it did evolve into the most important type of compound for leprosy (15). The diacetyl derivative has also... [Pg.465]

Rubber Chemicals. Sodium nitrite is an important raw material in the manufacture of mbber processing chemicals. Accelerators, retarders, antioxidants (qv), and antiozonants (qv) are the types of compounds made using sodium nitrite. Accelerators, eg, thiuram [137-26-8J, greatly increase the rate of vulcaniza tion and lead to marked improvement in mbber quaUty. Retarders, on the other hand (eg, /V-nitrosodiphenylamine [156-10-5]) delay the onset of vulcanization but do not inhibit the subsequent process rate. Antioxidants and antiozonants, sometimes referred to as antidegradants, serve to slow the rate of oxidation by acting as chain stoppers, transfer agents, and peroxide decomposers. A commonly used antioxidant is A/,AT-disubstituted Nphenylenediamine which can employ sodium nitrite in its manufacture (see Rubber chemicals). [Pg.200]

However, the yields are usuaHy poor because of the oxidation of the Grignard reagent by thaHium(III). Reaction of R3TI with acids also affords a convenient route to this type of compound. [Pg.469]

RTIX2 derivatives are covalent compounds, generally soluble in organic solvents. The aryl and vinyl derivatives are more stable than the corresponding alkyl compounds. This type of compound has been postulated to be an intermediate in many organic synthetic reactions involving thaUium(III) species. [Pg.470]

The term babbitt iacludes high tin ahoys (substantiahy lead-free) containing >80 wt % tin, and high lead ahoys containing >70 wt % lead and <12 wt % tin. Both have the characteristic stmcture of hard compounds ia a soft matrix, and although they contain the same or similar types of compounds, they differ ia composition and properties of the matrix. [Pg.62]

Toluene, an aLkylben2ene, has the chemistry typical of each example of this type of compound. However, the typical aromatic ring or alkene reactions are affected by the presence of the other group as a substituent. Except for hydrogenation and oxidation, the most important reactions involve either electrophilic substitution in the aromatic ring or free-radical substitution on the methyl group. Addition reactions to the double bonds of the ring and disproportionation of two toluene molecules to yield one molecule of benzene and one molecule of xylene also occur. [Pg.175]

C gH gBiClO, have been reported in the earher chemical Hterature. There is, however, no modem research on these types of compounds, and they may or may not exist. [Pg.133]

Cycloadditions of diazaquinones with unsaturated compounds yield diazacyc-lobutanes, from which N-substituted 3-hydroxypyridazin-6(l/f)-ones are formed after addition of water, t-butanol or acetic acid (Scheme 56). The same types of compound are also obtained from enamines. [Pg.39]

Little information is available about 5,6-dihydropteridines, of which various 6,7-diphenyl-5,6-dihydropterins (65HCA764, 69HCA306) and -lumazines (68HCA1029, 70HCA789) have been synthesized and characterized. As noticed already (51BSF521), this type of compound isomer-izes in an acid-catalyzed reaction to the 7,8-dihydro derivative (77HCA922) or oxidizes to... [Pg.306]

These show marked similarities to their acyclic counterparts, e.g. tetrahydrofuran closely resembles diethyl ether. The minor differences which arise between these two types of compounds are due to the less sterically hindered nature of the heteroatoms in the cyclic compounds. The basicities of tetrahydropyrrole (pHTa 10.4), tetrahydrofuran (-2.1) and... [Pg.86]

Critical Temperature The critical temperature of a compound is the temperature above which a hquid phase cannot be formed, no matter what the pressure on the system. The critical temperature is important in determining the phase boundaries of any compound and is a required input parameter for most phase equilibrium thermal property or volumetric property calculations using analytic equations of state or the theorem of corresponding states. Critical temperatures are predicted by various empirical methods according to the type of compound or mixture being considered. [Pg.384]

See other pages where Types of compound is mentioned: [Pg.33]    [Pg.225]    [Pg.506]    [Pg.511]    [Pg.569]    [Pg.401]    [Pg.115]    [Pg.403]    [Pg.27]    [Pg.252]    [Pg.60]    [Pg.183]    [Pg.115]    [Pg.106]    [Pg.163]    [Pg.481]    [Pg.118]    [Pg.494]    [Pg.90]    [Pg.199]    [Pg.226]    [Pg.264]    [Pg.354]    [Pg.454]    [Pg.166]    [Pg.538]    [Pg.113]    [Pg.280]   


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Compound types

Compounding types

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