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Alkyl phenols, Hindered

Phenolic and polyphenolic compounds are the most active dietary antioxidants (14). The structural variation of phenolic antioxidants directly influences their physical properties, resulting in differences in their antioxidant activity. BHA and BHT are examples of phenols, in which the aromatic ring contains alkyl groups (hindered phenols), which are extremely effective as antioxidants (11). [Pg.531]

In early phenol alkylation studies 61), we noticed that alkylation of phenol with ethylene occurred at 204°C, a temperature much higher than that required for ethylation of the much less nucleophilic benzene nucleus (121°C) under similar conditions. Superficially, at least, this appears to violate the classical laws of electrophilic substitution (24). Closer examination of this system 62, 64), however, showed that phenol, at moderately low temperatures, was specifically adsorbed at sites active for alkylation, thus hindering adsorption of ethylene at these same sites, and preventing generation of the electrophile necessary for attack on the phenyl nucleus. That is, alkylation by a Rideal-type mechanism see Scheme 5) cannot occur until temperatures high enough to desorb phenol from the active sites—and allow ethylene to compete for adsorption— are obtained. In such systems, alkylation can be facilitated by imposition of pressure (in the case of ethylene), or use of more polar or higher... [Pg.277]

Some of the preparative methods for alkyl phenols and their reactions are unique to this class and both therefore warrant separate treatment from the parent compound. These features are even more prevalent in the hindered phenols a group of substances first synthesised less than half a century ago. In this account the synthesis of alkylphenols bearing purely methylenic side-chains in the benzenoid, naphthalenic and polycyclic series are considered first. Alkylphenols with side-chains containing oxy or alkoxycarbonyl groups are then reviewed, followed by mention of those containing Si, N or S in the side-chain and finally polycyclic types with saturated and unsaturated rings bearing hetero atoms. As before emphasis has been placed on developments in the last decade. [Pg.147]

Antioxidant Minimize gum (residue) Aromatic diamines, hindered alkyl phenol... [Pg.1784]

Dover Chemical Corp. is a subsidiary of ICC Industries Inc. headquartered in New York City. Dover s products are extremely diverse the chemicals made include brominated and bromo-chlorinated flame retardants, benzophenone and hindered amine light stabilisers, phosphite stabilisers, surfactants, lubricants, metallic stearates, and alkyl phenols. It is also a leading manufacturer of chlorinated hydrocarbon waxes, and there are several chemical products unrelated to plastics. [Pg.171]

Hevastain 21 Nonstaining Antioxidant is a hindered phenolic compound which is produced by alkylating phenols with selected olefinic monomers. [Pg.102]

Carbonless Paper. Novolaks based on p-phenylphenol and other p-alkyl phenol copolymers have proven to be valuable in the manufacture of carbonless paper. In order to keep the oxidation and yellowing of the papers low, highly hindered substituted alkyl phenolics are incorporated as antioxidants. New formulations also incorporate the phenolics as zinc and aluminum salts. [Pg.331]

Two synthetic bridged nitrogen heterocycles are also prepared on a commercial scale. The pentazocine synthesis consists of a reductive alkylation of a pyridinium ring, a remarkable and puzzling addition to the most hindered position, hydrogenation of an enamine, and acid-catalyzed substitution of a phenol derivative. The synthesis is an application of the reactivity rules discussed in the alkaloid section. The same applies for clidinium bromide. [Pg.309]

Oxidation of LLDPE starts at temperatures above 150°C. This reaction produces hydroxyl and carboxyl groups in polymer molecules as well as low molecular weight compounds such as water, aldehydes, ketones, and alcohols. Oxidation reactions can occur during LLDPE pelletization and processing to protect molten resins from oxygen attack during these operations, antioxidants (radical inhibitors) must be used. These antioxidants (qv) are added to LLDPE resins in concentrations of 0.1—0.5 wt %, and maybe naphthyl amines or phenylenediamines, substituted phenols, quinones, and alkyl phosphites (4), although inhibitors based on hindered phenols are preferred. [Pg.395]

Other Hydroperoxides. Several hydrotrioxides including alkyl hydrotrioxides, R—OOOH, have been reported (63,64). There is strong spectroscopic evidence that a-cumyl hydrotrioxide [82951-48-2] is produced in the low temperature ozonization of cumene. Homolytic decomposition of a-cumyl hydrotrioxide in cumene/acetone-hindered phenol resulted in cumyl alcohol as the only organic product (65). Based on the... [Pg.105]

The aromatic ring of alkylphenols imparts an acidic character to the hydroxyl group the piC of unhindered alkylphenols is 10—11 (2). Alkylphenols unsubstituted in the ortho position dissolve in aqueous caustic. As the carbon number of the alkyl chain increases, the solubihty of the alkah phenolate salt in water decreases, but aqueous caustic extractions of alkylphenols from an organic solution can be accomphshed at elevated temperatures. Bulky ortho substituents reduce the solubihty of the alkah phenolate in water. The term cryptophenol has been used to describe this phenomenon. A 35% solution of potassium hydroxide in methanol (Qaisen s alkah) dissolves such hindered phenols (3). [Pg.58]

The effect substitution on the phenolic ring has on activity has been the subject of several studies (11—13). Hindering the phenolic hydroxyl group with at least one bulky alkyl group ia the ortho position appears necessary for high antioxidant activity. Neatly all commercial antioxidants are hindered ia this manner. Steric hindrance decreases the ability of a phenoxyl radical to abstract a hydrogen atom from the substrate and thus produces an alkyl radical (14) capable of initiating oxidation (eq. 18). [Pg.224]

Trimethylsilyl ethers are readily cleaved by fluoride ion, mild acids, and bases. If the TMS derivative is somewhat hindered, it also becomes less susceptible to cleavage. A phenolic TMS ether can be cleaved in the presence of an alkyl TMS ether [Dowex lX8(IfO ), EtOH, rt, 6 h, 78% yield]. ... [Pg.161]

Because they are acrylic monomers, alkyl cyanoacrylate esters still require the addition of radical polymerization inhibitors, such as hydroquinone or hindered phenols, to prevent radically induced polymerization over time [3j. Since basic initiation of alkyl cyanoacrylate monomers is the predominant polymerization mechanism, large quantities of free radical inhibitors can be added, with little or no effect on adhesive performance. [Pg.850]

Irg 1076, AO-3 (CB), are used in combination with metal dithiolates, e.g., NiDEC, AO-30 (PD), due to the sensitized photoxidation of dithiolates by the oxidation products of phenols, particularly stilbenequinones (SQ, see reaction 9C) (Table 3). Hindered piperidines exhibit a complex behavior when present in combination with other antioxidants and stabilizers they have to be oxidized initially to the corresponding nitroxyl radical before becoming effective. Consequently, both CB-D and PD antioxidants, which remove alkyl peroxyl radicals and hydroperoxides, respectively, antagonise the UV stabilizing action of this class of compounds (e.g.. Table 3, NiDEC 4- Tin 770). However, since the hindered piperidines themselves are neither melt- nor heat-stabilizers for polymers, they have to be used with conventional antioxidants and stabilizers. [Pg.117]

The reaction between acyl halides and alcohols or phenols is the best general method for the preparation of carboxylic esters. It is believed to proceed by a 8 2 mechanism. As with 10-8, the mechanism can be S l or tetrahedral. Pyridine catalyzes the reaction by the nucleophilic catalysis route (see 10-9). The reaction is of wide scope, and many functional groups do not interfere. A base is frequently added to combine with the HX formed. When aqueous alkali is used, this is called the Schotten-Baumann procedure, but pyridine is also frequently used. Both R and R may be primary, secondary, or tertiary alkyl or aryl. Enolic esters can also be prepared by this method, though C-acylation competes in these cases. In difficult cases, especially with hindered acids or tertiary R, the alkoxide can be used instead of the alcohol. Activated alumina has also been used as a catalyst, for tertiary R. Thallium salts of phenols give very high yields of phenolic esters. Phase-transfer catalysis has been used for hindered phenols. Zinc has been used to couple... [Pg.482]

Alkyl halides in the presence of silver oxide will convert any non-hindered carboxylic acid (or its salt) to the corresponding alkyl ester in minutes, and phenolic or thiol groups will also be alkylated rapidly [436]. Hydroxyl groups are alkylated slowly an ot always to completion. The alkyl halides most frequently uJQp are the lower molecular weight aliphatic... [Pg.944]

Plasticiser/oil in rubber is usually determined by solvent extraction (ISO 1407) and FTIR identification [57] TGA can usually provide good quantifications of plasticiser contents. Antidegradants in rubber compounds may be determined by HS-GC-MS for volatile species (e.g. BHT, IPPD), but usually solvent extraction is required, followed by GC-MS, HPLC, UV or DP-MS analysis. Since cross-linked rubbers are insoluble, more complex extraction procedures must be carried out. The determination of antioxidants in rubbers by means of HPLC and TLC has been reviewed [58], The TLC technique for antidegradants in rubbers is described in ASTM D 3156 and ISO 4645.2 (1984). Direct probe EIMS was also used to analyse antioxidants (hindered phenols and aromatic amines) in rubber extracts [59]. ISO 11089 (1997) deals with the determination of /V-phenyl-/9-naphthylamine and poly-2,2,4-trimethyl-1,2-dihydroquinoline (TMDQ) as well as other generic types of antiozonants such as IV-alkyl-AL-phenyl-p-phenylenediamines (e.g. IPPD and 6PPD) and A-aryl-AL-aryl-p-phenylenediamines (e.g. DPPD), by means of HPLC. [Pg.35]

Tertiary alkyl substituents in the ori/zo-position to the phenolic group cause an additional repulsion in TS and, hence, diminish the reactivity of phenols. Using values of Ee0 for ArjOH and sterically hindered Ar2OH, we can estimate the contribution from such a steric repulsion AES to the activation energy E [33,34],... [Pg.518]

It can be seen that the steric effect is profound in radical reactions of Ar2OH with peroxyl and methyl radicals. It will be shown later that the steric effect exists in other free radical reactions of Ar2OH. The AES values of the reactions of alkyl radicals with Ar2OH are considerably higher than those for phenols reacting with oxygen-centered radicals. The steric effect can also manifest itself in the inverse reactions of sterically hindered phenoxyl radicals Ar20 with various molecules (see later). [Pg.519]

As the reaction temperature increases, the equilibrium constant diminishes, since complex formation is accompanied by heat liberation. Sterically hindered phenols form loose complexes because of the impeding effect of voluminous alkyl substituents in the ortho-position. Hydrogen bonding reduces the activity of phenols, which was first observed in the studies of the effects of cyclohexanol and butanol on the inhibitory activity of a-naphthol in cyclohexane [9]. This phenomenon was investigated in detail with reference to the oxidation of methylethylketone [10]. The k7 values for some inhibitors of the oxidation of ethylbenzene and methylethylketone are given below (333 K) [10,46] ... [Pg.519]

Thus, perfluoroalkylated imidazoles are obtained in excellent to good yields (Scheme 3.7) [16, 17]. Similarly, a hindered phenolate anion provides a fluoro-alkylated dimeric product in high yield (Scheme 3.8) [173. [Pg.18]

The O-alkylation reactions of hindered phenols are normally sluggish reactions and attempts to improve reactivity have received considerable attention from synthetic organic chemists. Ultrasonic irradiation has been used to greatly enhance the rate of alkylation of 2,6-dimethylphenol with several different primary halides under heterogeneous conditions using KjCOj in N-methylpyrrolidinone (NMP) (Eq. 3.26) [126]. [Pg.115]


See other pages where Alkyl phenols, Hindered is mentioned: [Pg.266]    [Pg.168]    [Pg.151]    [Pg.328]    [Pg.147]    [Pg.147]    [Pg.151]    [Pg.87]    [Pg.357]    [Pg.22]    [Pg.379]    [Pg.419]    [Pg.224]    [Pg.233]    [Pg.164]    [Pg.114]    [Pg.477]    [Pg.721]    [Pg.780]    [Pg.421]    [Pg.458]    [Pg.279]    [Pg.280]    [Pg.1512]   
See also in sourсe #XX -- [ Pg.87 ]




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Hindered

Hindered phenolics

Hindered phenols

Phenolic alkylation

Phenols alkylated phenol

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