Replacement of hydrogen

For branching compounds, the parent structure is the longest continuous chain present in the compound. Consider the compound to have been derived from this structure by replacement of hydrogen by various alkyl groups. Arabic number prefixes indicate the carbon to which the alkyl group is attached. Start numbering at whichever end of the parent structure that results in the lowest-numbered locants. The arable prefixes are listed in numerical sequence, separated from each other by commas and from the remainder of the name by a hyphen. 

CoF is used for the replacement of hydrogen with fluorine in halocarbons (5) for fluorination of xylylalkanes, used in vapor-phase soldering fluxes (6) formation of dibutyl decalins (7) fluorination of alkynes (8) synthesis of unsaturated or partially fluorinated compounds (9—11) and conversion of aromatic compounds to perfluorocycHc compounds (see Fluorine compounds, organic). CoF rarely causes polymerization of hydrocarbons. CoF is also used for the conversion of metal oxides to higher valency metal fluorides, eg, in the assay of uranium ore (12). It is also used in the manufacture of nitrogen fluoride, NF, from ammonia (13). 

Replacement of Hydrogen. Three methods of substitution of a hydrogen atom by fluorine are (/) reaction of a G—H bond with elemental fluorine (direct fluorination, (2) reaction of a G—H bond with a high valence state metal fluoride like Agp2 or GoF, and (J) electrochemical fluorination in which the reaction occurs at the anode of a cell containing a source of fluoride, usually HF. 

Carboxjiates with a fiuorinated alkyl chain ate marketed by the 3M/Industrial Chemical Products Company under the trade name Fluotad surfactants. They also include other functional derivatives of fiuorinated and perfluorinated alkyl chains. Replacement of hydrogens on the hydrophobe by fluorine atoms leads to surfactant molecules of unusually low surface tension. This property imparts excellent leveling effectiveness. 

Oxidations in the pteridine series comprise (i) replacement of hydrogen by hydroxyl, (ii) glycol formation at the central C=C bond (iii) the removal of hydrogen atoms from dihydro and tetrahydro derivatives. 

Nucleophilic replacement of hydrogen on an isoxazole is unknown and replacement of substituents is discussed in Section 4.16.3.3. In this series it is difficult to identify reactions involving addition to the ring as, in many instances, they are rapidly followed by elimination or ring cleavage sequences. 

This is opposite from the order in solution as revealed by the pK data in water and DMSO shown in Table 4.14. These changes in relative acidity can again be traced to solvation effects. In the gas phase, any substituent effect can be analyzed directly in terms of its stabilizing or destabilizing effect on the anion. Replacement of hydrogen by alkyl substituents normally increases electron density at the site of substitution, but this effect cannot be the dominant one, because it would lead to an ordering of gas-phase acidity opposite to that observed. The dominant effect is believed to be polarizability. The methyl... 

For the past 20 years, four mam ways of replacement of hydrogen by fluorine have been used fluorination using elemental fluorine, electrochemical fluon nation, fluorination using high-valency metal fluorides, and selective electro philic fluorination... 

The replacement of hydrogen with halogen takes place under thermal or photochemical conditions [J9, 20, 21] (equations 10-12). 

Replacement of hydrogen with halogen in fluoraarenes takes place by an ionic mechanism and is subject to the normal directing effects [27, 28, 29] (equations 13-15). 

Replacement of hydrogen with halogen can be carried out in the alpha position of fluorinated ethers, amines, aldehydes, or nitriles In 2,2,3,4,4,4 hexafluoro-bulyl methyl ether, chlorination occurs predominantly at the methyl, however, bromination occurs mostly at the internal position of the fluorobutyl group 133] (equation 20)... 

Table 8. Replacement of Hydrogen with Halogen in Benzotrifluoride...

Replacement of hydrogen with chlorine adjacent to the nitrogen in poly-fluoroalkylamines occurs in excellent yield [39 40 (equations 21 and 22)... 

Replacement of hydrogen with bromine alpha to a carbonyl or a nitrile group lakes place under mild conditions and in good yield [41, 42] (equations 23 and 24)... 

Bromobenzene. -The replacement of hydrogen by the halogens Cl and Br, in the nucleus of aromatic hydrocarbons, is assisted by the presence of a halogen carriei, the action of which lias been referred to in the Note on the piepaiations of chlor- and bioin-acetic acids, p. 252. Iodine, iion, iron and alupiinium chlorides and bromides, the aluminium-mercury... 

Carbanions of ct-chloroalkyl phenyl sulfones react with nitrobenzenes to effect tlirect nucleophilic replacement of hydrogens located on o and para to the nitro group fEq. 9.24. A very important feature is that VNS of hydrogen usually proceeds faster than conventional SnAt of halogen located In equally activated positions fEq. 9.25. The rule that VNS of... 

Benzene- 1,2-diacetonitriles e.g. 19, in the presence of hydrogen bromide in acetic acid, or in diethyl ether, cyclize to 4-bromo-l //-3-benzazepin-2-amines, e.g. 20a.41,42 l//-Naphtho[2,3-t/]azepines, e.g. 22a, are prepared in a similar manner from naphthalene-2,3-diacetonitriles, e.g. 21.41 Replacement of hydrogen bromide by hydrogen iodide yields the corresponding 4-iodo derivatives, e.g. 20b and 22b. 

Similar dependence is noted in the complexes PtHxCl2 x(PPrl3)2 ( = 0,1,2) where the Pt-P bond increases by 0.04 A for each successive replacement of hydrogen by the bulkier chlorine (Figure 3.92) [149],... 

A. I. Shatenshtein, Isotopic Exchange and the Replacement of Hydrogen in Organic Compounds, Consultants Bureau, New York, 1962, p. 105. 

Amines are derived from ammonia by the replacement of hydrogen atoms with organic groups. Amides result from the condensation of amines with carboxylic acids. Amines and many amides take part in hydrogen bonding. 

It is to be expected from chemical evidence that the replacement of hydrogen by an aliphatic radical would have some further inhibiting effect on the carboxyl resonance. It is found, however, that to within the experimental error of about 0.2 v.e. the resonance energy is the same for methyl and ethyl esters as for carboxylic acids. 

Carb-16.1. Replacement of hydrogen at a non-terminal carbon atom. 

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