Big Chemical Encyclopedia

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

Articles Figures Tables About

Carboxylic polybasic

The same is true for polybasic acids, with the proviso that all the carboxyl groups must be changed to aldehyde then it is not necessary to introduce affixes. Examples are... [Pg.27]

Alkyds. Alkyd resins (qv) are polyesters formed by the reaction of polybasic acids, unsaturated fatty acids, and polyhydric alcohols (see Alcohols, POLYHYDRic). Modified alkyds are made when epoxy, sUicone, urethane, or vinyl resins take part in this reaction. The resins cross-link by reaction with oxygen in the air, and carboxylate salts of cobalt, chromium, manganese, zinc, or zirconium are included in the formulation to catalyze drying. [Pg.365]

Carboxylic acids with one acid group are known as monobasic acids while those with two acid groups are dibasic acids. All acids with more than one acid group are in the class of polybasic acids. The simplest organic acid, formic acid, is responsible for the irritation of bee and ant stings. Vinegar is a 5% solution of acetic acid in water. The acetic acid is responsible for the characteristic sour taste. Citric acid, found in citrus fruits and used in soft drinks, is a tribasic acid with three carboxylic acid groups. The dibasic acid, adipic acid, is a major component of nylon. [Pg.65]

SYNTHESIS OF MIXED OXIDES USING POLYBASIC CARBOXYLIC HYDROXY-AND AMINO-ACID ROUTES PROBLEMS AND PROSPECTS... [Pg.500]

Polybasic carboxylic hydroxy and amino acid aided synthetic routes directed towards obtaining mixed inorganic materials, especially for battery and fuel cell applications, are overviewed. It has been shown that, in spite of enormous number of papers on the subject, significant efforts should be undertaken in order to understand the basic principles of these routes. Possible influence of the structure of reactants employed in the process (acids, poly hydroxy alcohols, metal salts) is put forward, and some directions of future work in the field are outlined. [Pg.500]

An idea to use polybasic hydroxy carboxylic acids in syntheses of oxides goes back to Pechini [3], Evaporating solutions of metal salts in citric acid at presence of ethylene glycol he obtained a polymeric resin as a precursor of target oxides. Then this process was extensively used to manufacture various ceramic oxide powders in several publications [4-8],... [Pg.502]

Dissolution of metal salts in the aqueous solution of polybasic hydroxy (or amino) carboxylic acids (and poly hydroxy alcohols) ... [Pg.503]

Role of Polybasic Carboxylic Hydroxy (amino) Acids and Poly Hydroxy Alcohols... [Pg.503]

It should be emphasized that citric acid is not the only possible acid employed in Pechini-type syntheses. Other polybasic carboxylic hydroxy acids (malic, tartaric, hydroxyglutaric, etc.) and polybasic carboxylic acids (e.g., succinic) have been probed in Refs. [4, 13-16], As far as amino acids are concerned, glycine seems to remain the only representative [13, 14]. However, the choice of each particular organic acid has never been justified, and no comparative studies are performed in order to find possible dependencies of the process (ability to form a sol, a gel, or a resin, easiness of thermal decomposition of precursors, etc.) on the steric factors, specifically, on the number of hydroxy and carboxylic groups in the molecule of an acid, as well as on the length of its carbon skeleton. [Pg.503]

In order to co clarify the role of complex formation, the new data on stability constants should be accumulated, being collected at strictly similar conditions. It should be also mentioned that any analysis of equilibrium in solutions involving anions of polybasic hydroxy carboxylic acids requires the data on the deprotonation constants of the acid in question. This information would be crucial for conclusions regarding the presence and stability of mixed complexes in the system. Valuable knowledge about the structure of complex compounds present in solutions (and in precursors as well, see later) may be gained by means of vibrational spectroscopy (IR and Raman spectra) and nuclear magnetic resonance. [Pg.505]

Figure 2 shows that for a polymer couple, even for a large excess of polybase, the fraction of carboxylic groups actually complexed (given by the compelxation degree 0) is always smaller than one and strongly depends on a (or on p, see Figure 3). This corresponds to a variable mean stoichiometry in contradiction with most of the previous papers, where a mean complex stoichiometry close to 1 1 is proposed (5-10). but in agreement with Morawetz s results (16). Figure 2 shows that for a polymer couple, even for a large excess of polybase, the fraction of carboxylic groups actually complexed (given by the compelxation degree 0) is always smaller than one and strongly depends on a (or on p, see Figure 3). This corresponds to a variable mean stoichiometry in contradiction with most of the previous papers, where a mean complex stoichiometry close to 1 1 is proposed (5-10). but in agreement with Morawetz s results (16).
Famesylation of the Ras protein occurs at the C-terminal CAAX sequence (A aliphatic amino acid, X Ser or Thr). The famesyl residue is attached, with the help of a farnesyl protein transferase, via a thioether bond to the Cys residue of the CAAX sequence. Next, the last three amino acids are cleaved off by proteases and the carboxyl group of the C-terminal cysteine residue undergoes a methylesterification (Fig. 9.6). In addition, the Ras proteins have a palmitinic acid anchor at different Cys residues in the vicinity of the C terminus. The membrane localization of the Ki-Ras protein is also supported by a polybasic sequence close to the C terminus (see 3.7 and Fig. 3.12). [Pg.334]

The definition of pH is pH = —log[H+] (which will be modified to include activity later). Ka is the equilibrium constant for the dissociation of an acid HA + H20 H30+ + A-. Kb is the base hydrolysis constant for the reaction B + H20 BH+ + OH. When either Ka or Kb is large, the acid or base is said to be strong otherwise, the acid or base is weak. Common strong acids and bases are listed in Table 6-2, which you should memorize. The most common weak acids are carboxylic acids (RC02H), and the most common weak bases are amines (R3N ). Carboxylate anions (RC02) are weak bases, and ammonium ions (R3NH+) are weak acids. Metal cations also are weak acids. For a conjugate acid-base pair in water, Ka- Kb = Kw. For polyprotic acids, we denote the successive acid dissociation constants as Kal, K, K, , or just Aj, K2, A"3, . For polybasic species, we denote successive hydrolysis constants Kbi, Kb2, A"h3, . For a diprotic system, the relations between successive acid and base equilibrium constants are Afa Kb2 — Kw and K.a Kbl = A w. For a triprotic system the relations are A al KM = ATW, K.d2 Kb2 = ATW, and Ka2 Kb, = Kw. [Pg.116]

See other pages where Carboxylic polybasic is mentioned: [Pg.481]    [Pg.502]    [Pg.505]    [Pg.354]    [Pg.205]    [Pg.5]    [Pg.555]    [Pg.198]    [Pg.325]    [Pg.139]    [Pg.154]    [Pg.1045]    [Pg.13]    [Pg.241]    [Pg.124]    [Pg.141]    [Pg.88]    [Pg.240]    [Pg.290]    [Pg.497]    [Pg.500]    [Pg.25]    [Pg.35]    [Pg.106]   
See also in sourсe #XX -- [ Pg.232 , Pg.248 , Pg.249 ]



SEARCH



Polybase

Polybases

© 2024 chempedia.info