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Basic properties preparation

This can be extracted from impure phosphine prepared by the action of sodium hydroxide on phosphorus. Unlike hydrazine, it has no basic properties. It is a powerful reducing agent and burns spontaneously in air, this reaction explaining why impure phosphine containing traces of diphosphane ignites spontaneously in air. [Pg.227]

Physical Properties, (i) Aromatic. Colourless when freshly prepared, but usually brown. MonomethylaniUne, CgHjNHCH, b.p. 193°, and monoethylaniline, CgHjNHCjHj, b.p. 206 , diphenylamine,(C6H5)2NH, m.p. 54 , are all insoluble in water, the two alkylanilines having well-marked basic properties, diphenylamine being feebly basic and insoluble in dilute mineral acids. [Pg.375]

In 1877, Maly (45) discussing formula 34 applied to thiohydantoine found it unable to explain the basic properties of the compound. He preferred a structure in which the -CH2-CO- group would be bonded to only one nitrogen atom. Meyer (46) prepared a monophenyl thiohydantoin (m.p. 178°C) by condensing diloroacetanilide with thiourea and proposed 42 for its structure. [Pg.16]

Mg/Me (Me=Al, Fe) mixed oxides prepared from hydrotalcite precursors were compared in the gas-phase m-cresol methylation in order to find out a relationship between catalytic activity and physico-chemical properties. It was found that the regio-selectivity in the methylation is considerably affected by the surface acid-basic properties of the catalysts. The co-existence of Lewis acid sites and basic sites leads to an enhancement of the selectivity to the product of ortho-C-alkylation with respect to the sole presence of basic sites. This derives from the combination of two effects, (i) The H+-abstraction properties of the basic site lead to the generation of the phenolate anion, (ii) The coordinative properties of Lewis acid sites, through their interaction with the aromatic ring, make the mesomeric effect less efficient, with predominance of the inductive effect of the -O species in directing the regio-selectivity of the C-methylation into the ortho position. [Pg.347]

Substances prepared under carefully controlled conditions and using very pure chemicals, in a modern laboratory, for example, contain only the basic component elements, those that determine the actual composition and nature of the substances. Natural substances, whether of mineral or biological origin, and also most synthetic (human-made) substances contain, in addition to their main components, impurities foreign to their basic composition. Most impurities usually enter substances such as minerals, for example, in relatively small amounts, when the substances are created. Others, such as those in some rocks and the wood of trees, do so in the course of their existence. Once within a substance, impurities become an integral part of the host substance and impair the purity of the substance. Although they alter the actual composition of substances, impurities do not affect their basic properties. [Pg.52]

The LLB catalyst system needs a rather long reaction time and the presence of excess ketone to get a reasonable yield. Yamada and Shibasaki63 found that another complex, BaBM (91), was a far superior catalyst. Complex 91 also contains a Lewis acidic center to activate and control the orientation of the aldehyde, but it has stronger Bronsted basic properties than LLB. The preparation of BaBM is shown in Scheme 3-35. [Pg.164]

General information (sampling/sample preparation and basic properties)... [Pg.11]

There are many different zeolite structures but only a few have been studied extensively for membrane applications. Table 10.1 lists some of these structures and their basic properties. One of the most critical selection criterion when choosing a zeolite for a particular application is the pore size exhibited by the material. Figure 10.1 compares the effective pore size of the different zeolitic materials with various molecule kinetic diameters. Because the pores of zeolites are not perfectly circular each zeolite type is represented by a shaded area that indicates the range of molecules that may stiU enter the pore network, even if they diffuse with difficulty. By far the most common membrane material studied is MFI-type zeolite (ZSM-5, Al-free siUcahte-l) due to ease of preparation, control of microstructure and versatility of applications [7]. [Pg.307]

Vesely and coworkers [417] listed the preparation methods, basic properties and response of this electrode for S , Hg " and CN, as well as earlier unsuccessful attempts to make such an electrode. A Selectrode using Ag2S [328] and an ISE with contact made of conductive artificial resin [83] have also been described. [Pg.145]

In spite of the potential basic properties of the Au(CN)2 anion, these complexes were not obtained in an acid-base reaction with silver salts. Instead, they were prepared by slow crystallization of pure gold and silver dicyanide complexes in different molar ratios (x = 0.25, 0.50, 0.75, 0.90). In the case of the two lanthanum derivatives, the exact compositions established by X-ray diffraction studies gave empirical formula in which x = 0.33 and 0.78. For the europium complexes, only one structural determination was performed with x= 0.14. [Pg.379]

How can the oxides, peroxides, and hydroxides of the alkaline-earth metals be prepared What are the commercial names of calcium and barium hydroxide solutions How do the solubility, basic properties, and thermal stability of the hydroxides change in the series calcium-strontium-barium ... [Pg.192]

Nickel (III) Hydroxide. Add bromine water to a precipitate of nickel(II) hydroxide. What happens Write the equation of the reaction. How can you explain the different reaction of ironfll), cobalt(II), and nickel(II) hydroxides with the oxygen of the air Why does the method of preparing cobalt(III) and nickel (III) hydroxides differ from that of preparing iron(III) hydroxide How and why do the acid and basic properties of iron, cobalt, and nickel hydroxides change depending on their oxidation state ... [Pg.242]

Ethanolamine nitric ester nitrate (ethanolamine dinitrate) N03NH3CH2CH20N02 is a solid melting at 103°C. According to Naoum this compound can be prepared by nitrating ethanolamine [68], Aubry [69] has reported that a yield of 90-96% can be achieved in this reaction. This method of preparation has not been confirmed by some authors. Serious disadvantages of the substance include its inclination to absorb moisture, and the readiness with which it loses nitric acid owing to the wealdy basic properties of the amine [70],... [Pg.472]

Although a small amount of strong acid catalyst is essential in the preparation of esters from acids and alcohols, the amount of acid catalyst added must not be too large. The reason for the too much of a good thing behavior of the catalyst can be understood from the basic properties of alcohols (Section 15-4B). If too much acid is present, then too much of the alcohol is converted to the oxonium salt ... [Pg.618]

Most of the basic properties of RNase XL are summarized in Tables II and IV. It is an acidic protein, most active at pH 4.5 for RNA digestion (7). It has far less hydrolase activity than phosphotransferase activity (SO). The enzyme preparation obtained possesses a specific activity of about 1.4 X 103 units per OD280 unit, corresponding to about one-fifth that of RNase Tj and twice of that of RNase T2. [Pg.235]

Bassam Z. Shakhashiri, "Preparation and Properties of Ammonia/ Chemical Demonstrations, A Handbook for Teachers of Chemistry, Vol. 2 (The University of Wisconsin Press, Madison, 1985), pp. 202-204. Ammonia gas is produced from the reaction of ammonium chloride with calcium hydroxide and is collected in an Erlenmeyer flask by the displacement of air. The ammonia gas turns moistened litmus paper blue, demonstrating the basic properties of ammonia dissolved in water. When the mouth of an ammonia-filled Erlenmeyer flask is placed below the surface of a pool of water, water rapidly enters the flask to replace ammonia that dissolves in the water. White smoke forms when ammonia vapor is passed over the top of a beaker of concentrated hydrochloric acid forming solid ammonium chloride. [Pg.835]

From iodine, too, iodonium compounds have been prepared, in which the iodine functions as a triad and a hydroxide with basic properties is known. [Pg.91]

The second article by Kawahara and his coworkers focuses on polyolefin (PO)-based hybrid materials (POH), in view of their synthesis, structures, and properties. POs are currently the most widely and conveniently used polymeric materials as recognized by the production amount of over one hundred million tons annually in the world, due to the cheap price yet good properties. They are basically hydrocarbon polymers, and hence hydrophobic and less polar. These basic properties are to be modified by introducing a polar function for a wider use in practical applications. Preparation of POHs is one of the best ways to... [Pg.196]

See other pages where Basic properties preparation is mentioned: [Pg.165]    [Pg.458]    [Pg.421]    [Pg.948]    [Pg.949]    [Pg.269]    [Pg.187]    [Pg.4]    [Pg.269]    [Pg.22]    [Pg.373]    [Pg.76]    [Pg.251]    [Pg.1199]    [Pg.399]    [Pg.403]    [Pg.276]    [Pg.282]    [Pg.154]    [Pg.540]    [Pg.733]    [Pg.397]    [Pg.264]    [Pg.2339]    [Pg.159]    [Pg.20]   
See also in sourсe #XX -- [ Pg.165 , Pg.166 , Pg.167 , Pg.168 , Pg.169 , Pg.170 , Pg.241 ]



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