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Hydrogen peroxide thermal decomposition

Three-dimensional networks of polyethylene are manufactured through peroxide-initiated covalent bonding between preformed linear molecules. These peroxide-thermal-decomposition reactions lead to free radical Intermediates which abstract hydrogen atoms from the polyethylene backbone to produce long chain polymer radicals. Combinations of these chain polymer radicals lead to a crossllnked network. ( ) (Figure 1)... [Pg.241]

Classical chemiluminescence from lucigenin (20) is obtained from its reaction with hydrogen peroxide in water at a pH of about 10 Qc is reported to be about 0.5% based on lucigenin, but 1.6% based on the product A/-methylacridone which is formed in low yield (46). Lucigenin dioxetane (17) has been prepared by singlet oxygen addition to an electron-rich olefin (16) at low temperature (47). Thermal decomposition of (17) gives of 1.6% (47). [Pg.265]

Thermal decomposition of dihydroperoxides results in initial homolysis of an oxygen—oxygen bond foUowed by carbon—oxygen and carbon—carbon bond cleavages to yield mixtures of carbonyl compounds (ketones, aldehydes), esters, carboxyHc acids, hydrocarbons, and hydrogen peroxide. [Pg.114]

The catalytic activity of PCSs results from their semiconductor properties. The first studies in this field date from 1959—1961. Thus, we have demonstrated catalytic activity of products of the thermal transformation of PAN in the decomposition reactions of hydrogen peroxide, hydrazine hydrate, and formic acid270, 271. There is an indication of catalytic activity of poly(aminoquinone) in the reactions of the hydrogen peroxide decomposition272. ... [Pg.36]

PCSs obtained by dehydrochlorination of poly(2-dilorovinyl methyl ketones) catalyze the processes of oxidation and dehydrogenation of alcohols, and the toluene oxidation207. The products of the thermal transformation of PAN are also catalysts for the decomposition of nitrous oxide, for the dehydrogenation of alcohols and cyclohexene274, and for the cis-tnms isomerization of olefins275. Catalytic activity in the decomposition reactions of hydrazine, formic acid, and hydrogen peroxide is also manifested by the products of FVC dehydrochlorination... [Pg.36]

Hydroxy radicals are produced by redox reactions involving hydrogen peroxide (see 3.3.2.6.2). They can also be generated in organic solution by thermal decomposition of a-hydroperoxydiazenes (see 3.3.3.1). [Pg.128]

During preparation of hydrogen bromide by addition of bromine to a suspension of red phosphorus in water, the latter must be freshly prepared to avoid the possibility of explosion. This is due to formation of peroxides in the suspension on standing and subsequent thermal decomposition [1], In the earlier description of such an explosion, action of bromine on boiling tetralin was preferred to generate hydrogen bromide [2], which is now available in cylinders. [Pg.115]

Action of chlorine trifluoride causes incandescence [1]. Manganese dioxide catalytically decomposes powerful oxidising agents, often violently. Dropped into cone, hydrogen peroxide, the powdered oxide may cause explosion [2], Either the massive or the powdered oxide explosively decomposes 92% peroxomonosulfuric acid [3], and mixtures with chlorates ( oxygen mixture , heated to generate the gas) may react with explosive violence [4], Cuban pyrolusite can be used in place of potassium dichromate to promote thermal decomposition of potassium chlorate in match-head formulations [5],... [Pg.1769]

The thermal decomposition of hydrogen peroxide in the temperature range involved occurs according to the overall reaction... [Pg.6]

The volume strength of the hydrogen peroxide solution is the number of ml of oxygen at NTP which may be produced by the complete thermal decomposition of 1 ml of H202 solution. Hence, decomposition takes place as designated by the following equation ... [Pg.128]

A number of reports on the thermal decomposition of peroxides have been published. The thermal decompositions of f-butyl peroxyacetate and f-butyl peroxypivalate, of HCOH and a kinetic study of the acid-induced decomposition of di-f-butyl peroxide in n-heptane at high temperatures and pressures have been reported. Thermolysis of substituted f-butyl (2-phenylprop-2-yl) peroxides gave acetophenone as the major product, formed via fragmentation of intermediate alkoxy radicals RCH2C(Ph)(Me)0. A study of the thermolysis mechanism of di-f-butyl and di-f-amyl peroxide by ESR and spin-trapping techniques has been reported. The di-f-amyloxy radical has been trapped for the first time. jS-Scission reaction is much faster in di-f-amyloxyl radicals than in r-butoxyl radicals. The radicals derived from di-f-butyl peroxide are more reactive towards hydrogen abstraction from toluene than those derived from di-f-amyl peroxide. [Pg.192]

Peroxide crosslinking involves the formation of polymer radicals via hydrogen abstraction by the peroxy radicals formed from the thermal decomposition of the peroxide. Cross-linking occurs by coupling of the polymer radicals... [Pg.743]

Thermal decomposition in three different ways, i.e. homolytic, polar and radical induced decomposition, as well as intermolecular reaction of sulfonyl peroxides are the main reactions displayed by sulfonyl peroxides. When bis(arylsulfonyl) peroxides are allowed to decompose at 25-40 °C in chloroform, homolytic 0—0 bond fission followed by hydrogen abstraction from the solvent results in the formation of the corresponding arylsnlfonic acids. Mixed acyl sulfonyl peroxides undergo complicated thermal decomposition in solution, and have been used commercially as polymerization initiators, since they provide a source of free radicals at a relatively low temperature . [Pg.1005]

Lucigenin (10,10 -dimethyl-9,9 -biacridinium or bis-Af-methylacridinium (38)), in the presence of hydrogen peroxide in alkaline media, exhibits chemiluminescence with a maximum emission wavelength at 445 nm. Lucigenin chemiluminescence was first reported in 1935 by Glen and Petsch, and the 1,2-dioxetane 39 was postulated as a key intermediate. Nevertheless, the mechanism of lucigenin chemiluminescence was only elucidated by McCapra and Richardson, who also proposed the thermal decomposition... [Pg.1248]

Part of the high yield of formaldehyde may arise from the thermal-induced decomposition of hydrogen peroxide which is known (25) to occur in anhydrous methanol. [Pg.119]

See other pages where Hydrogen peroxide thermal decomposition is mentioned: [Pg.480]    [Pg.296]    [Pg.717]    [Pg.82]    [Pg.68]    [Pg.229]    [Pg.339]    [Pg.269]    [Pg.90]    [Pg.101]    [Pg.107]    [Pg.113]    [Pg.116]    [Pg.132]    [Pg.32]    [Pg.195]    [Pg.187]    [Pg.613]    [Pg.615]    [Pg.87]    [Pg.134]    [Pg.598]    [Pg.153]    [Pg.118]    [Pg.599]    [Pg.204]    [Pg.92]    [Pg.399]    [Pg.89]    [Pg.70]    [Pg.87]    [Pg.73]    [Pg.5]    [Pg.971]    [Pg.1253]    [Pg.281]   
See also in sourсe #XX -- [ Pg.96 ]



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Hydrogen decomposition

Hydrogen peroxide decomposition

Hydrogen thermal decomposition

Hydrogenation, thermal

Peroxide decomposition

Peroxides thermal decomposition

Thermal decomposition

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