Acidity changes properties

The oxidising properties of the aqueous solutions of chloric(VII) acid change dramatically with temperature and the concentration of the acid. Cold dilute solutions have very weak oxidising properties and these solutions will react, for example, with metals, producing hydrogen without reduction of the chlorate(VII) ion occurring ... 

Gas-phase methylation of catechol by methanol was studied on y -AI2O3 modified by the basic elements K, Li, Mg and Ca. Addition of 7.5 at.% Mg to y-AljOa was optimal and increased the 3-methyl catechol selectivity from 0.26 to 0.65. X-ray diffraction experiments showed the diffusion of Li and Mg cations into the y -AI2O3 bulk. This induces a change in the surface species (XPS data) and the surface acid-base properties (TPD experiments). Ca and K addition to y-alumina was ineffective due to formation of basic oxide layers on the sur ce. 

Problems resembling the first example, but much more complex, are often studied in industry. For instance in the agro-food industry linear programming is a current tool to optimize the blending of raw materials (e.g. oils) in order to obtain the wanted composition (amount of saturated, monounsaturated and polyunsaturated fatty acids) or property of the final product at the best possible price. Here linear programming is repeatedly applied each time when the price of raw materials is adapted by changing markets. 

Compounds absorbed by active uptake mechanisms (e.g., glucose and Gly-Pro) and compounds known to be substrates for efflux transport (e.g., digoxin, verapamil) were also included in the list. The applied concentration (10-500 pM) only had minor effects on the permeability values. Thus, the choice of concentration was not critical for this set of compounds with respect to the relationship between permeability and fraction absorbed in humans. Changing the pH on the apical donor side had significant effects on the Papp values of several compounds, the effects being in agreement with the acid-base properties of the compounds. The... 

The pH optical fiber sensor without any pH-sensitive dye was also described70. Porous silica layer made by the sol-gel method was cladded onto optical fibre core and was exploited as the optical transducer. Acid-base properties of silica surface caused that the surface charge of silica changed with pH of the solution. For example saturation of the sol-gel layer with cations leads to an increase of the electron density of the film, hence, the refractive index of the film. Since the surface charge of silica depends on pH, the refractive index of silica film varies also with pH. Thus, changes of... 

Another field of investigation is the use of metal nitridooxophosphates such as A1PON (11) or ZrPON (12) as catalysts. The incorporation of nitrogen leads to a change in acid-base properties and to improved stability. 

Besides the prediction of calcination temperatures during catalyst preparation, thermal analysis is also used to determine the composition of catalysts based on weight changes and thermal behavior during thermal decomposition and reduction, to characterize the aging and deactivation mechanisms of catalysts, and to investigate the acid-base properties of solid catalysts using probe molecules. However, these techniques lack chemical specificity, and require corroboration by other characterization methods. 

Yang NC, Chang S, Suh DH (2003) Synthesis and optically acid-sensory properties of novel polyoxadiazole derivatives. Polymer 44 2143-2148... 

The behavior of a salt will depend upon the acid—base properties of the ions present in the salt. The ions may lead to solutions of the salt being acidic, basic, or neutral. The pH of a solution depends on hydrolysis, a generic term for a variety of reactions with water. Some ions will undergo hydrolysis and this changes the pH. 

The most commonly employed crystalline materials for liquid adsorptive separations are zeolite-based structured materials. Depending on the specific components and their structural framework, crystalline materials can be zeoUtes (silica, alumina), silicalite (silica) or AlPO-based molecular sieves (alumina, phosphoms oxide). Faujasites (X, Y) and other zeolites (A, ZSM-5, beta, mordenite, etc.) are the most popular materials. This is due to their narrow pore size distribution and the ability to tune or adjust their physicochemical properties, particularly their acidic-basic properties, by the ion exchange of cations, changing the Si02/Al203 ratio and varying the water content. These techniques are described and discussed in Chapter 2. By adjusting the properties almost an infinite number of zeolite materials and desorbent combinations can be studied. 

Turner, D. H. Conformational changes. In Nucleic Acids Structures, Properties and Eunctions-, Bloomfield, V. A. Crothers, D. M. Tinoco, I. Eds. Herndon, VA University Science Books, 2000 pp. 259-334. 

The scope of the present study is to investigate the time extension of the conventional and the advanced CPS deactivation methods. Moreover, the impact of the deposited metals and their oxidation state during laboratory deactivation on the final properties of the deactivated samples is under research. The correlation of acidity changes during the deactivation with the catalytic performance is inquired for the understanding of the complex phenomenon of deactivation due to interrelation of the several variables in the process. 

The acidic/basic properties of zeolites can be changed by introdnction of B, In, Ga elements into the crystal framework. For example, a coincorporation of alnminnm and boron in the zeolite lattice has revealed weak acidity for boron-associated sites [246] in boron-snbstitnted ZSM5 and ZSMll zeolites. Ammonia adsorption microcalorimetry gave initial heats of adsorption of abont 65 kJ/mol for H-B-ZSMll and showed that B-substituted pentasils have only very weak acidity [247]. Calcination at 800°C increased the heats of NH3 adsorption to about 170 kJ/mol by creation of strong Lewis acid sites as it can be seen in Figure 13.13. The lack of strong Brpnsted acid sites in H-B-ZSMll was confirmed by poor catalytic activity in methanol conversion and in toluene alkylation with methanol. 

A series of tetraquo-dcrivatives containing two molecules of pyridine is also known. These have formula [Cr py2(H20)4]R3, and correspond in general properties to the diammino series. They are prepared from green hydrated chromic chloride, [CrCl2(H20)4]C1.2lI20, by treatment with pyridine, when it is transformed into the dihydroxo-diaquo-dipyri-dino-chloride, [Cr pya(H20)2(0H)2]Cl, and this on treatment with mineral acid changes into the tetraquo-salt.6... 

How do the stability and acid-basic properties of the hydrates of chromium, molybdenum, tungsten, and uranium trioxides change ... 

Bisulfite ions, HS03", condense with anthocyanins. This reversible reaction decreases the color by forming a colorless compound (12) (16). This effect is less evident in strongly acid media because the bisulfite ions are not as numerous since they are being converted to the undissociated acid. This property explains the decolorization of red wines following sulfite treatment but, since it is reversible, the color gradually reappears as the free S02 (bisulfite ions) disappears. The major role of tannins in the color of old wines explains their insensitivity to color change with SOo. 

It is well known that the elements in framework of zeolite molecular sieves greatly influence the properties and behaviors of these materials [1-3], The introduction of heteroatoms into the framework has become one of most active fields in study of zeolites. The investigations were mostly focused on the methods to introduce heteroatoms into the framework (for examples, hydrothermal synthesis and post-synthesis), the mechanisms for incorporations, the effect of heteroatoms on the acid-base properties and the catalytic features of modified samples [1-10]. Relatively less attention was paid to the effect of treatment process on the porous properties of samples although the incorporation of heteroatoms, especially by the so-called post-synthesis, frequently changes the distribution of pore size. Recently, we incorporated Al, Ga and B atoms into zeolites (3 by the post-synthesis in an alkaline medium named alumination, galliation and boronation, respectively. It was found that different trivalent elements inserted into the [3 framework at quite different level. The heteroatoms with unsuitable atom size and poor stability in framework were less introduced, leading to that a considerable amount of framework silicon were dissolved under the action of base and the mesopores in zeolite crystal were developed. As a typical case, the boronation of zeolites (3 and the accompanied formation of mesopores are reported in the present paper. 

Similar correlations between the acid-base properties of catalysts and activ-ity/selectivity were earlier observed in the rearrangement of simple oxiranes (refs. 5-8). In our case it seems reasonable to suppose that the observed changes are due to the different competing mechanisms discussed above. WO, with strong acidic sites in high concentration, is able to form the carbenium ion. Since the density and the strength of the basic sites on WO are low, formation of the double-bonded surface species depicted in Fig. 3 has only a low probability. The single-bonded open carbenium ion is then mainly transformed to ketone 3. In harmony with this, the isomers exhibit identical selectivity, a... 

The amino-acids that make up the primary structure of proteins will change their charge when the pH of the solution is altered due to their acid-base properties (Section 5.3 and Appendix 5.1). The effects of pH on enzyme-catalysed reactions can be complex since both Km and may be affected. Here, only the effects on Kmax are considered, as this usually reflects a single constant rather than several that may be associated within the constant Km (see Section 5.4.4.). It is assumed that pH does not change the limiting step in a multi-step process and that the substrate is saturating at all times. 

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