Trapping radicals

Radical traps used for the study of radical monomer reactions should meet a number of criteria  

Various reagents have been employed as radical traps. Those most commonly 

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The half life for NO in cellular systems ranges from 5—30 seconds. Superoxide, hemoglobin, and other radical trapping agents remove NO after it has been formed. 

Radical Trapping. Figure 2 shows some of the reactions of aromatic amines that contribute to their activity as antioxidants and to their tendency to form highly colored polyconjugated systems. 

The exterior durabiHty of relatively stable coatings can be enhanced by use of additives. Ultraviolet absorbers reduce the absorption of uv by the resins and hence decrease the rate of photodegradation. Eurther improvements can be gained by also adding free-radical trap antioxidants (qv) such as hindered phenols and especially hindered amine light stabilizers (HALS). A discussion of various types of additives is available (113). 

Further aspects of the reaction of aromatic tertiary hydroxyl amines have been examined by more sophisticated techniques [49]. 2-Methyl-2-nitrosopropane was used as a radical trap, and the endgroups on PMMA resulting from its addition were detectable by ultraviolet spectroscopy. Electron spin resonance results on the same system have also been reported [50]. 

Through radical trapping and ESR spectrum the same radical, i.e., A/-methyl-p-toluidine methyl radical, as in the BPO-DMT system was verified but with a weakened signal. Therefore, the above result favored our formerly proposed mechanism as follows ... 

System Radical trapped by MNP Hyperfine splitting constant (0.1 mT) ap ap a," ... 

Any substance capable of reacting with free radicals to form products that do not reinitiate the oxidation reaction could be considered to function as free-radical traps. The quinones are known to scavenge alkyl free radicals. Many polynuclear hydrocarbons show activity as inhibitors of oxidation and are thought to function by trapping free radicals [25]. Addition of R to quinone or to a polynuclear compound on either the oxygen or nitrogen atoms produces adduct radicals that can undergo subsequent dimerization, disproportionation, or reaction with a second R to form stable products. 

Reductant Radical trapped by MNP Hyperfme splitting constant (mT) a N a ... 

Scheme 12. Intermolecular radical trapping-fragmentation in Keck s synthesis of ( )-perhydrohistrionico-toxin [( )-69].

Scheme 25. Barton s thiohydroxamate ester chemistry use of neutral molecule radical traps.

Adding a radical trap like BulNO to the reaction mixture this reacts with radicals (R ) forming nitroxide radicals Bul(R )NO that can be detected by ESR. 

Tabic 3,11 Radical Trapping Agents for Studying Initiation... 

Chalfont ei a m were the first to apply the spin trapping technique in the study of radical polymerization. They studied radicals produced during S polymerization initiated by r-butoxy radicals with 108 as the radical trap. Since... 

Certain transition metal salts can be used as radical traps (Scheme 3.89, Scheme 3.90).486 These include various cupric (e.g. Cu(OAc)2, CuCl , Cu(SCN)i),l8 1<,8 J< 3 432 487 ferric (e.g. FeCli),316 488 and titanotis salts (eg. TiCL,).379 These traps react with radicals by ligand- or electron-transfer to give products which can be determined by conventional analytical techniques. 

Alkyl mercuric hydrides are generated in situ by reduction of an alkyl mercuric salt with sodium borohydridc (Scheme 3.91). Their use as radical traps was first reported by Hill and Whitesides491 and developed for the study of radical-olefin reactions by Giese,489490 Tirrell492 and coworkers. Careful choice of reagents and conditions provides excellent yields of adducts of nucleophilic radicals (e.g. -hexyl, cyclohexyl, /-butyl, alkoxyalkyl) to electron-deficient monomers (e.g. acrylics). 

Nitroxides have the property of quenching fluorescence. Thus radical trapping with nitroxides containing fluorophores (e.g. 114) can be monitored by observing the appearance of fluorescence.511015 The method is highly sensitive and has been applied to quantitatively determine radical yields in PLP experiments (Section... 

Watanabe et al,25-5 52s applied AMS dimer (116) as a radical trap to examine the reactions of oxygen-centered radicals (e.g. r-butoxy, cumyloxy, benzoyloxy). AMS dimer (116) is an addition fragmentation chain transfer agent (see 6.2.3.4) and reacts as shown in Scheme 3,96. The reaction products are macromonomers and may potentially react further. The reactivity of oxygen centered radicals towards 116 appears to be similar to that of S.2 1 Cumyl radicals are formed as a byproduct of trapping and are said to decay mainly by combination and disproportionation. 

Evaluation of molecular weights after ultrasonic scission of high molecular weight polymers (PMMA and PS) in the presence of a radical trap has been claimed to provide evidence of the termination mechanism.1,1 However, scission gives radicals as shown in Scheme 5.10. 

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