Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Hydrogen peroxide, reactions involving

Thus, reactions of carbonyl compounds with hydrogen peroxide and acids lead to products similar to those obtained by the ozonization of olefins (Section III), which also yields 1,2,4-trioxolans and 1,2,4,5-tetroxans. The similarity of the two reactions is understandable, since the intermediates )C+—OO- in the ozonization27a and )C+—OOH in the hydrogen peroxide reactions are related as a conjugate base-acid pair. A number of cyclic peroxides of structure 7 are prepared from bis(hydroperoxy)dialkyl peroxides (5) by reaction with lead(IV) acetate, as described by Criegee et al.la This reaction is also thought to involve a carbonium ion intermediate,31 which reacts with the second OOH group. [Pg.169]

Hydrogen peroxide reactions are often transacetalizations, as is shown by the formation of the dimeric ethylidene peroxide (11) from sulfuryl chloride, hydrogen peroxide, and ether.32 This reaction probably involves the a-chloroether (8), the ether hydroperoxide (9), and the cation (10) as intermediates. [Pg.169]

Briggs and Rauscher discovered an oscillating reaction which is identified as an iodine clock. It resembles the iodate-hydrogen peroxide reaction of Bray (1921), and has some of the elements of the reaction of Belousov, see Section III.C. The chemicals involved are ... [Pg.8]

A bienzy matic system was developed as catalyst for the oxidative polymerization of phenol [31]. The HRP-catalyzed polymerization of phenol in the presence of glucose oxidase and glucose gave polymer in a moderate yield, in which hydrogen peroxide was formed in situ by the oxidative reaction of glucose catalyzed by glucose oxidase. In this system, no successive addition of hydrogen peroxide was involved. [Pg.168]

Although reactions such as these which involve radicals would conform to the pattern of hydrogen peroxide reactions in other oxidizing and reducing systems, they fall short in certain respects. Thus consider the... [Pg.42]

Netto LE, Stadtman ER (1996) The iron-catalyzed oxidation of dithiothreitol is a biphasic process hydrogen peroxide is involved in the initiation of a free radical chain of reactions. Arch Biochem Bio-phys 333 233-242... [Pg.398]

The mechanism of peroxidation involves the reduction of Cu(II)-SODl by hydrogen peroxide (reaction 1) followed by the reaction with another molecule of peroxide to produce a species capable of transferring the elements of a hy oxyl radical, OH, to an exogenous substrate (reaction 2). [Pg.352]

The mechanism of this reaction involves an activation of the ammonia and hydrogen peroxide because these compounds do not themselves react (118—121). It appears that acetamide functions as an oxygen transfer agent, possibly as the iminoperacetic acid (41) which then oxidizes the transient Schiff base formed between MEK and ammonia (40) to give the oxaziridine (42), with regeneration of acetamide ... [Pg.284]

Hydrogen peroxide may react directiy or after it has first ionized or dissociated into free radicals. Often, the reaction mechanism is extremely complex and may involve catalysis or be dependent on the environment. Enhancement of the relatively mild oxidizing action of hydrogen peroxide is accompHshed in the presence of certain metal catalysts (4). The redox system Fe(II)—Fe(III) is the most widely used catalyst, which, in combination with hydrogen peroxide, is known as Fenton s reagent (5). [Pg.471]

The radicals are then involved in oxidations such as formation of ketones (qv) from alcohols. Similar reactions are finding value in treatment of waste streams to reduce total oxidizable carbon and thus its chemical oxygen demand. These reactions normally are conducted in aqueous acid medium at pH 1—4 to minimize the catalytic decomposition of the hydrogen peroxide. More information on metal and metal oxide-catalyzed oxidation reactions (Milas oxidations) is available (4-7) (see also Photochemical technology, photocatalysis). [Pg.471]

The Huron-Dow Process. The Huron-Dow (H-D) process is a refinement of the cathodic reduction of oxygen in an alkaline electrolyte yielding low strength hydrogen peroxide directiy. Earlier attempts reHed on neutralizing the excess caustic or forming insoluble metal peroxides (92). The two reactions involved are... [Pg.477]

Most likely singlet oxygen is also responsible for the red chemiluminescence observed in the reaction of pyrogaHol with formaldehyde and hydrogen peroxide in aqueous alkaU (152). It is also involved in chemiluminescence from the decomposition of secondary dialkyl peroxides and hydroperoxides (153), although triplet carbonyl products appear to be the emitting species (132). [Pg.270]

The anhydride can be made by the Hquid-phase oxidation of acenaphthene [83-32-9] with chromic acid in aqueous sulfuric acid or acetic acid (93). A postoxidation of the cmde oxidation product with hydrogen peroxide or an alkaU hypochlorite is advantageous (94). An alternative Hquid-phase oxidation process involves the reaction of acenaphthene, molten or in alkanoic acid solvent, with oxygen or acid at ca 70—200°C in the presence of Mn resinate or stearate or Co or Mn salts and a bromide. Addition of an aHphatic anhydride accelerates the oxidation (95). [Pg.503]

Ozonation ofAlkenes. The most common ozone reaction involves the cleavage of olefinic carbon—carbon double bonds. Electrophilic attack by ozone on carbon—carbon double bonds is concerted and stereospecific (54). The modified three-step Criegee mechanism involves a 1,3-dipolar cycloaddition of ozone to an olefinic double bond via a transitory TT-complex (3) to form an initial unstable ozonide, a 1,2,3-trioxolane or molozonide (4), where R is hydrogen or alkyl. The molozonide rearranges via a 1,3-cycloreversion to a carbonyl fragment (5) and a peroxidic dipolar ion or zwitterion (6). [Pg.493]

Unsymmetrical dialkyl peroxides are obtained by the reaction of alkyl hydroperoxides with a substrate, ie, R H, from which a hydrogen can be abstracted readily in the presence of certain cobalt, copper, or manganese salts (eq. 30). However, this process is not efficient since two moles of the hydroperoxide are consumed per mole of dialkyl peroxide produced. In addition, side reactions involving free radicals produce undesired by-products (44,66). [Pg.109]

Fig. 2. Steps in advanced oxidation process (AOPs) involving o2one, hydrogen peroxide, and uv light of 254 nm. ( D) represents the doublet state ( ) represents quantum yield, and the other numbers associated with the reaction arrows are rate constants in units of (Af-s). Dashed arrows indicate... Fig. 2. Steps in advanced oxidation process (AOPs) involving o2one, hydrogen peroxide, and uv light of 254 nm. ( D) represents the doublet state ( ) represents quantum yield, and the other numbers associated with the reaction arrows are rate constants in units of (Af-s). Dashed arrows indicate...
See other pages where Hydrogen peroxide, reactions involving is mentioned: [Pg.235]    [Pg.235]    [Pg.473]    [Pg.260]    [Pg.218]    [Pg.109]    [Pg.41]    [Pg.277]    [Pg.405]    [Pg.416]    [Pg.157]    [Pg.220]    [Pg.220]    [Pg.277]    [Pg.285]    [Pg.74]    [Pg.107]    [Pg.1286]    [Pg.667]    [Pg.308]    [Pg.44]    [Pg.44]    [Pg.292]    [Pg.471]    [Pg.480]    [Pg.355]    [Pg.385]    [Pg.101]    [Pg.103]    [Pg.163]    [Pg.141]    [Pg.149]    [Pg.150]    [Pg.202]    [Pg.186]   
See also in sourсe #XX -- [ Pg.196 , Pg.197 , Pg.198 , Pg.199 , Pg.200 , Pg.201 , Pg.202 , Pg.203 , Pg.204 , Pg.205 , Pg.271 , Pg.343 , Pg.345 , Pg.351 ]



SEARCH



Peroxidation reactions

Reaction peroxide

Reactions Involving Hydrogen

© 2024 chempedia.info