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Hydroxylamine properties

CHR) , formed, e g. from the reaction of diazomethane and alcohols or hydroxylamine derivatives in the presence of boron compounds or with metal compounds. Poly-methylene is formally the same as polyethene and the properties of the various polymers depend upon the degree of polymerization and the stereochemistry. [Pg.320]

Cure Characteristics. Methods of natural rubber production and raw material properties vary from factory to factory and area to area. Consequentiy, the cure characteristics of natural mbber can vary, even within a particular grade. Factors such as maturation, method and pH of coagulation, preservatives, dry mbber content and viscosity-stabilizing agents, eg, hydroxylamine-neutral sulfate, influence the cure characteristics of natural mbber. Therefore the consistency of cure for different grades of mbber is determined from compounds mixed to the ACSl formulation (27). The ACSl formulation is as follows natural mbber, 100 stearic acid, 0.5 zinc oxide, 6.0 sulfur, 3.5 and 2-mercaptobenzothiazole (MBT), 0.5. [Pg.269]

In theory, three isoxazolines are capable of existence 2-isoxazoline (2), 3-isoxazoline and 4-isoxazoline. The position of the double bond may also be designated by the use of the prefix A with an appropriate numerical superscript. Of these only the 2-isoxazolines have been investigated in any detail. The preparation of the first isoxazoline, 3,5-diphenyl-2-isoxazoline, from the reaction of )3-chloro-)3-phenylpropiophenone with hydroxylamine was reported in 1895 (1895CB957). Two major syntheses of 2-isoxazolines are the cycloaddition of nitrile A-oxides to alkenes and the reaction of a,/3-unsaturated ketones with hydroxylamine. Since 2-isoxazolines are readily oxidized to isoxazoles and possess some of the unique properties of isoxazoles, they also serve as key intermediates for the synthesis of other heterocycles and natural products. [Pg.3]

Nitrogen forms more than 20 binaiy compounds with hydrogen of which ammonia (NH3, p. 420), hydrazine (N2H4, p. 427) and hydrogen azide (N3H, p. 432) are by far the most important. Hydroxylamine, NH2(OH), is closely related in structure and properties to both ammonia, NH2(H), and hydrazine, NH2(NH2) and it will be convenient to discuss this compound in the present section also (p. 431). Several protonated cationic species such as NH4+, N2H5+, etc, and deprotonated anionic species such as NH2 , N2H3 , etc. also exist but ammonium hydride, NH5, is unknown. Among... [Pg.426]

Here a typical property of three-membered rings wdth two hetero atoms is shown and this property is also found in the diaziridines. Only with the oxaziranes which are substituted by aryl groups in the 3-position does the hydrolysis by acids occur according to Eq. (14) with formation of an aromatic aldehyde and alkyl hydroxylamine. [Pg.93]

Particularly violent interactions took place between this oxide and hydrazine or hydroxylamine. In fact, the danger is linked to the extreme in-stability and the highly reducing property of these nitrogenous compounds. [Pg.208]

The most advanced PDF inhibitor to emerge thus far from this collaboration is LBM-415 (12) (also called NVP PDF-713 or VIC-104959), an V-formyl-V-hydroxylamine compound still containing a proline residue at P2. The activity, PK properties, and in vivo efficacy data of (12) were presented at the 14th European Congress of Clinical Microbiology and Infectious Diseases (ECCMID) (2004) and the structure of this... [Pg.125]

Action of the appropriate alkyl bromide on N-cyanourethane 130 affords the N-alkyl cyanourethanes 131 that, under the action of the hydroxylamine, through the intermediate formation of unstable hydroxyguanidines 132, yield the final products 133. These products have been found to display antithrombotic properties after... [Pg.168]

C-Nitroso compounds, oximes, N-hydroxyguanidines and N-hydroxyureas each contain an N-O bond and release nitric oxide (NO) or one of its redox forms under some conditions. The nitrogen atom of a C-nitroso compound formally exists in the +1 oxidation state, the same oxidation state as nitroxyl (HNO), the one-electron reduced form of N O. The nitrogen atoms of oximes, N-hydroxyguanidines, and N-hydroxyureas each formally exist in the -1 oxidation state, the same oxidation state as hydroxylamine. Consequently, the direct formation of NO (formal oxidation state = +2) from any of these species requires oxidation, one electron for a C-nitroso compound and three electrons for an oxime, N-hydroxyguanidine or N-hydroxyurea. This chapter summarizes the syntheses and properties, NO-releasing mechanisms and the known structure-activity relationships of these compounds. [Pg.177]

Substrates for the sulfotransferases include such varied compounds as primary and secondary alcohols, hydroxysteroids, phenols, organic hydroxylamines, and amines. As is the case with formation of glutathione and glucuronide conjugates, the formation of a sulfate ester usually renders a substance more polar and more readily excreted. Several reviews on the multiple forms of sulfotransferases and their specificities and properties are available (133-135). [Pg.357]

Perhaps the most important application of redox chemicals in the modern laboratory is in oxidation or reduction reactions that are required as part of a preparation scheme. Such preoxidation or prereduction is also frequently required for certain instrumental procedures for which a specific oxidation state is essential in order to measure whatever property is measured by the instrument. An example in this textbook can be found in Experiment 19 (the hydroxylamine hydrochloride keeps the iron in the +2 state). Also in wastewater treatment plants, it is important to measure dissolved oxygen (DO). In this procedure, Mn(OH)2 reacts with the oxygen in basic solution to form Mn(OH)3. When acidified and in the presence of KI, iodine is liberated and titrated. This method is called the Winkler method. [Pg.134]

Misonidazole [27 l-methoxy-3-(2-nitroimidazol-l-yl)-2-propanol] and the model compound l-methyl-2-nitroimidazole have been used as radiosensitizers in the treatment of certain types of human tumors. One important property of these compounds is that they are more toxic to hypoxic cells than to aerobic cells, indicating that reductive metabolism of the drug is involved in the toxicity. Results of a number of studies suggest that intracellular thiols play a significant role in the hypoxic cell toxicity, and it was found that reduction products formed stable thio ethers with GSH (for literature see References 181-183). The reaction mechanism of thio ether formation has not been fully established. It has been suggested that the 4-electron reduction product was involved in thio ether formation181,184,185, and that the hydroxylamine rather than the nitroso derivative was the reactant. On the other hand, an intermediate nitroso derivative is expected to give a sulfenamide cation (see Scheme 1) which easily allows thio ether formation. [Pg.1031]

TABLE 1. Comparison of experimental properties of hydroxylamine, H2NOH, with results of various computational procedures ... [Pg.4]

Three fundamental properties that play key roles in determining covalent and/or nonco-valent interactions are the electrostatic potential V(r), the ionization energy 7 (sometimes written IE) and the polarizability a. All three can be obtained experimentally. It is primarily in terms of these properties that we will examine the inter- and intramolecular interactions of hydroxylamines, oximes and hydroxamic acids. Accordingly we shall first briefly discuss F(r), I and a. [Pg.6]

We shall now compare some properties of prototypical examples of hydroxylamines, oximes and hydroxamic acids. These will be structures 1, 2 and 3 with methyl groups at the remaining positions, i.e. dimethylhydroxylamine (6), acetoxime (7) and acetohydroxamic acid (8). [Pg.11]

In this chapter, we have looked at some of the intrinsic features of hydroxylamine, oxime and hydroxamic acid molecules. The insights obtained, particularly concerning the electrostatic potentials on their molecular surfaces, should provide a useful basis for proceeding to their gas phase and crystal structures and properties. [Pg.26]

Hydroxylamines and oximes Biological properties and potential uses as therapeutic agents... [Pg.609]

See other pages where Hydroxylamine properties is mentioned: [Pg.140]    [Pg.231]    [Pg.273]    [Pg.520]    [Pg.3]    [Pg.271]    [Pg.142]    [Pg.122]    [Pg.137]    [Pg.97]    [Pg.55]    [Pg.140]    [Pg.184]    [Pg.170]    [Pg.189]    [Pg.171]    [Pg.1028]    [Pg.1153]    [Pg.62]    [Pg.206]    [Pg.325]    [Pg.6]    [Pg.31]    [Pg.118]    [Pg.346]    [Pg.610]    [Pg.622]    [Pg.661]   
See also in sourсe #XX -- [ Pg.431 , Pg.432 , Pg.495 ]

See also in sourсe #XX -- [ Pg.431 , Pg.432 , Pg.495 ]



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