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Acyl peroxides chlorides

Acyl peroxides from carboxylic acids via carboxylic acid chlorides... [Pg.40]

Acyl peroxides from carboxylic acid chlorides 2 COC1 —V CO-Og-OC s. 5,95... [Pg.332]

Sym. acyl peroxides. Ethereal HgOg-soln. added at -15° to a soln. of phenyl-propiolic chloride in abs. ether, then pyridine added dropwise with stirring, which is continued 2 hrs. diphenylpropiolyl peroxide (Caution, explosive). Y 74.5%. C. Bischoff and K.-H. Platz, J. pr. 312, 2 (1970) also mixed acyl peroxides s. Do Linh Khuong, G. S. Bylina, and Y. A. OPdekop, Akad. Navuk Belarus. SSR, Ser. Khim. Navuk 1970 (3), 74 (Russ) C. A. 73, 87570. [Pg.68]

Benzoxazolones, N-aniino-methylation 17, 407 Benzoylacetone s. Sodium/ benzbylacetone Benzoylation s. Acylation Benzoyl chloride as reagent 16, 609, 819, 970 Benzoyl peroxide as reagent 16, 369, 578 17, 311, 655, 897 Benzylamines, sec. [Pg.222]

By the interaction of an acyl chloride with hydrogen peroxide in the presence of alkali (H Oj + 2NaOH = Na Oj), for example ... [Pg.807]

The synthesis of 2,4-dihydroxyacetophenone [89-84-9] (21) by acylation reactions of resorcinol has been extensively studied. The reaction is performed using acetic anhydride (104), acetyl chloride (105), or acetic acid (106). The esterification of resorcinol by acetic anhydride followed by the isomerization of the diacetate intermediate has also been described in the presence of zinc chloride (107). Alkylation of resorcinol can be carried out using ethers (108), olefins (109), or alcohols (110). The catalysts which are generally used include sulfuric acid, phosphoric and polyphosphoric acids, acidic resins, or aluminum and iron derivatives. 2-Chlororesorcinol [6201-65-1] (22) is obtained by a sulfonation—chloration—desulfonation technique (111). 1,2,4-Trihydroxybenzene [533-73-3] (23) is obtained by hydroxylation of resorcinol using hydrogen peroxide (112) or peracids (113). [Pg.491]

Wheieas the BPO—DMA ledox system works well for curing of unsaturated polyester blends, it is not a very effective system for initiating vinyl monomer polymerizations, and therefore it generally is not used in such appHcations (34). However, combinations of amines (eg, DMA) and acyl sulfonyl peroxides (eg, ACSP) are very effective initiator systems at 0°C for high conversion suspension polymerizations of vinyl chloride (35). BPO has also been used in combination with ferrous ammonium sulfate to initiate emulsion polymerizations of vinyl monomers via a redox reaction (36). [Pg.224]

Alkoxyall l Hydroperoxides. These compounds (1, X = OR , R = H) have been prepared by the ozonization of certain unsaturated compounds in alcohol solvents (10,125,126). 2-Methoxy-2-hydroperoxypropane [10027-74 ] (1, X = OR , R" = methyl), has been generated in methanol solution and spectral data obtained (127). A rapid exothermic decomposition upon concentration of this peroxide in a methylene chloride—methanol solution at 0°C has been reported (128). 2-Bromo-l-methoxy-l-methylethylhydroperoxide [98821-14-8]has been distilled (bp 60°C (bath temp.), 0.013 kPa) (129). Two cycHc alkoxyaLkyl hydroperoxides from cyclodecanone have been reported (1, where X = OR R, R = 5-oxo-l, 9-nonanediyl) with mp 94—95°C (R" = methyl) and mp 66—68°C (R" = ethyl) (130). Like other hydroperoxides, alkoxyaLkyl hydroperoxides can be acylated or alkylated (130,131). [Pg.113]

Synthesis. Symmetrical diacyl peroxides (20, R = R = alkyl or aryl) are prepared by the reaction of an acyl chloride or anhydride with sodium peroxide or hydrogen peroxide and a base ... [Pg.125]

Use of diacid chlorides for acyl chlorides in the latter reaction results in generation of di(diacyl peroxides) (25). [Pg.125]

Other unsymmetrical peroxides can be prepared by this reaction by employing other acylating agents, eg, alkyl chloroformates, organosulfonyl chlorides, and carbamoyl chlorides (210). Unsymmetrical and symmetrical di(diacyl peroxides) also are obtained by the reaction of dibasic acid chlorides directiy with peroxycarboxyhc acids or monoacid chlorides directiy with diperoxycarboxyhc acids in the presence of a base (44,187,203). [Pg.125]

Acyl organosulfonyl peroxides (23) are prepared from the organosulfonyl chlorides and a metal salt of a peroxycarboxyhc acid (44) ... [Pg.126]

Potassium salts of the peroxides (27—29) are prepared from the reaction of Caro s acid [7722-86-3] H2SO, with acyl chlorides, chloroformates, or organosulfonyl chlorides in the presence of potassium hydroxide (44). [Pg.126]

H-Bond Acceptor (HBA) Acyl chlorides Acyl fluorides Hetero nitrogen aromatics Hetero oj gen aromatics Tertiary amides Tertiary amines Other nitriles Other nitros Isocyanates Peroxides Aldehydes Anhydrides Cyclo ketones Ahphatic ketones Esters Ethers Aromatic esters Aromatic nitriles Aromatic ethers Sulfones Sulfolanes... [Pg.1318]

Acyl radicals can fragment with toss of carbon monoxide. Decarbonylation is slower than decarboxylation, but the rate also depends on the stability of the radical that is formed. For example, when reaction of isobutyraldehyde with carbon tetrachloride is initiated by t-butyl peroxide, both isopropyl chloride and isobutyroyl chloride are formed. Decarbonylation is competitive with the chlorine-atom abstraction. [Pg.722]

A heterocyclic ring may be used in place of one of the benzene rings without loss of biologic activity. The first step in the synthesis of such an agent starts by Friedel-Crafts-like acylation rather than displacement. Thus, reaction of sulfenyl chloride, 222, with 2-aminothiazole (223) in the presence of acetic anhydride affords the sulfide, 224. The amine is then protected as the amide (225). Oxidation with hydrogen peroxide leads to the corresponding sulfone (226) hydrolysis followed by reduction of the nitro group then affords thiazosulfone (227). ... [Pg.141]

The explosive decomposition of the solid has been studied in detail [6], The effect of moisture upon ignitibility and explosive behaviour under confinement was studied. A moisture content of 3% allowed slow burning only, and at 5% ignition did not occur [7], Thermal instability was studied using a pressure vessel test, ignition delay time, TGA and DSC, and decomposition products were identified [8], The presence of acyl chlorides renders dibenzoyl peroxide impact-sensitive [9], There is a further report of a violent explosion during purification of the peroxide by Soxhlet extraction with hot chloroform [10], Residual traces of the peroxide in a polythene feed pipe exploded when it was cut with a handsaw [11]. The heat of decomposition has been determined as 1.39 kJ/g. The recently calculated value of 69° C for critical ignition temperature coincides with that previously recorded. [Pg.1205]

All monomers, surfactants, buffers, and chain transfer agents were used as provided. Water was deionized. Purchased organic peroxides were all reagent grade. Organic peroxides were prepared from the reaction products of acyl chlorides and sodium peroxide. Activity was determined by iodometric titration. [Pg.82]

See other pages where Acyl peroxides chlorides is mentioned: [Pg.723]    [Pg.1004]    [Pg.1004]    [Pg.46]    [Pg.38]    [Pg.46]    [Pg.62]    [Pg.697]    [Pg.10]    [Pg.93]    [Pg.88]    [Pg.107]    [Pg.372]    [Pg.223]    [Pg.103]    [Pg.124]    [Pg.694]    [Pg.256]    [Pg.728]    [Pg.26]    [Pg.242]    [Pg.244]    [Pg.82]   
See also in sourсe #XX -- [ Pg.11 , Pg.282 ]



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Acyl chlorides

Acyl peroxides

Acylation acyl chlorides

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