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Phosphates linear

A CE method with indirect UV detection has been validated for eight anions and two electrolyte systems pyromellitic acid - - hexamethonium hydroxide and chromate- -TTAB. The detection limits are between 1 and 3 mg 1 the repeatability and reproducibility of the measurement differ for different compounds and amounts to 5%, except for fluoride and phosphate. Linear calibration curves have been obtained within a concentration range between 1 and lOmgl. ... [Pg.373]

Qualitative examples abound. Perfect crystals of sodium carbonate, sulfate, or phosphate may be kept for years without efflorescing, although if scratched, they begin to do so immediately. Too strongly heated or burned lime or plaster of Paris takes up the first traces of water only with difficulty. Reactions of this type tend to be autocat-alytic. The initial rate is slow, due to the absence of the necessary linear interface, but the rate accelerates as more and more product is formed. See Refs. 147-153 for other examples. Ruckenstein [154] has discussed a kinetic model based on nucleation theory. There is certainly evidence that patches of product may be present, as in the oxidation of Mo(lOO) surfaces [155], and that surface defects are important [156]. There may be catalysis thus reaction VII-27 is catalyzed by water vapor [157]. A topotactic reaction is one where the product or products retain the external crystalline shape of the reactant crystal [158]. More often, however, there is a complicated morphology with pitting, cracking, and pore formation, as with calcium carbonate [159]. [Pg.282]

Nickel halide complexes with amines give mixtures of linear polymer and cychc trimers (30). Nickel chelates give up to 40% of linear polymer (31). When heated with ammonia over cadmium calcium phosphate catalysts, propargyl alcohol gives a mixture of pyridines (32). [Pg.104]

Pyrophosphates. The simplest linear condensed phosphates are pyrophosphates, which can be considered as the dehydration product of two orthophosphate groups. A water molecule is eliniinated to form a P—O—P linkage in a reversible reaction. [Pg.335]

The characteristics of soluble sihcates relevant to various uses include the pH behavior of solutions, the rate of water loss from films, and dried film strength. The pH values of sihcate solutions are a function of composition and concentration. These solutions are alkaline, being composed of a salt of a strong base and a weak acid. The solutions exhibit up to twice the buffering action of other alkaline chemicals, eg, phosphate. An approximately linear empirical relationship exists between the modulus of sodium sihcate and the maximum solution pH for ratios of 2.0 to 4.0. [Pg.7]

A non-linear regression analysis is employed using die Solver in Microsoft Excel spreadsheet to determine die values of and in die following examples. Example 1-5 (Chapter 1) involves the enzymatic reaction in the conversion of urea to ammonia and carbon dioxide and Example 11-1 deals with the interconversion of D-glyceraldehyde 3-Phosphate and dihydroxyacetone phosphate. The Solver (EXAMPLEll-l.xls and EXAMPLEll-3.xls) uses the Michaehs-Menten (MM) formula to compute v i- The residual sums of squares between Vg(,j, and v j is then calculated. Using guessed values of and the Solver uses a search optimization technique to determine MM parameters. The values of and in Example 11-1 are ... [Pg.849]

FIGURE 7.1 Selectivity curve of Fractogel EMD BioSEC (S). A Superformance 600-16 column (V, 121.6 ml 41 I ml) was used with a linear flow rate of 30 cm/hr utilizing 20 m/VI sodium phosphate... [Pg.222]

FIGURE 10.1 I Effect of linear velocity on plate height for proteins. Column SynChropak GPC 500, 250 X 4.6 mm i.d. Mobile phase 0.1 M potassium phosphate, pH 7. (Reprinted from Ref. 4 by courtesy of Marcel Dekker, Inc.)... [Pg.319]

Other types of complexons for polyanions (e.g. polycarboxylates and phosphates) are linear ligands with polyguanidinium cations or polyammonium cations as functional groups 33). [Pg.115]

The reddish yellow solution is diluted with 4-5 volumes of cold water containing 5 mM 2-mercaptoethanol to reduce the conductivity to 0.7 m 2 1 or less, and applied to a column of DEAE-cellulose (coarse grade 5 x 15 cm) equilibrated with 2mM potassium phosphate, pH 8.0, containing 5mM 2-mercaptoethanol. The column is first washed with the cold equilibration buffer, then luciferin is eluted with a linear increase of potassium phosphate from 2 mM to 0.3 M, monitoring the effluent by fluorescence and the absorption at 390 nm. The rest of the purification method described below is adapted from the... [Pg.256]

Fig. 3. Cation-exchange chromatography of protein standards. Column poly(aspartic acid) Vydac (10 pm), 20 x 0.46 cm. Sample 25 pi containing 12.5 pg of ovalbumin and 25 pg each of the other proteins in the weak buffer. Flow rate 1 ml/min. Weak buffer 0.05 mol/1 potassium phosphate, pH 6.0. Strong buffer same +0.6 mol/1 sodium chloride Elution 80-min linear gradient, 0-100% strong buffer. Peaks a = ovalbumin, b = bacitracin, c = myoglobin, d = chymotrypsinogen A, e = cytochrom C (reduced), / = ribonuclease A, g = cytochrome C (oxidised), h = lysozyme. The cytochrome C peaks were identified by oxidation with potassium ferricyanide and reduction with sodium dithionite [47]... Fig. 3. Cation-exchange chromatography of protein standards. Column poly(aspartic acid) Vydac (10 pm), 20 x 0.46 cm. Sample 25 pi containing 12.5 pg of ovalbumin and 25 pg each of the other proteins in the weak buffer. Flow rate 1 ml/min. Weak buffer 0.05 mol/1 potassium phosphate, pH 6.0. Strong buffer same +0.6 mol/1 sodium chloride Elution 80-min linear gradient, 0-100% strong buffer. Peaks a = ovalbumin, b = bacitracin, c = myoglobin, d = chymotrypsinogen A, e = cytochrom C (reduced), / = ribonuclease A, g = cytochrome C (oxidised), h = lysozyme. The cytochrome C peaks were identified by oxidation with potassium ferricyanide and reduction with sodium dithionite [47]...
Fig. 4. HPHIC of standard proteins on the weak hydrophobic columns. The SynChro-pack PROPYL column was 25x0.41 cm Poly (alkyl aspartamid)-silicas were packed into 20 x 0.46 cm columns. Sample 25 pi containing 25 pg of each protein in buffer A. Buffer A 1.8 mol/1 ammonium sulphate + 0.1 mol/1 potassium phosphate, pH 7.0. Buffer B 0.1 mol/1 potassium phosphate, pH 7.0. Gradient 40-min linear 0-100% buffer B. Flow rate 1 ml/min. Detection A220 = 1-28 a.u.f.s. Peaks a = cytochrome C, b = ribonu-clease A, c = myoglobin, d = conalbumin, e = neochymotrypsin, / = a-chymotrypsin, g - a-chymotrypsinogen A [48]... Fig. 4. HPHIC of standard proteins on the weak hydrophobic columns. The SynChro-pack PROPYL column was 25x0.41 cm Poly (alkyl aspartamid)-silicas were packed into 20 x 0.46 cm columns. Sample 25 pi containing 25 pg of each protein in buffer A. Buffer A 1.8 mol/1 ammonium sulphate + 0.1 mol/1 potassium phosphate, pH 7.0. Buffer B 0.1 mol/1 potassium phosphate, pH 7.0. Gradient 40-min linear 0-100% buffer B. Flow rate 1 ml/min. Detection A220 = 1-28 a.u.f.s. Peaks a = cytochrome C, b = ribonu-clease A, c = myoglobin, d = conalbumin, e = neochymotrypsin, / = a-chymotrypsin, g - a-chymotrypsinogen A [48]...
Solid catalysts for the metathesis reaction are mainly transition metal oxides, carbonyls, or sulfides deposited on high surface area supports (oxides and phosphates). After activation, a wide variety of solid catalysts is effective, for the metathesis of alkenes. Table I (1, 34 38) gives a survey of the more efficient catalysts which have been reported to convert propene into ethene and linear butenes. The most active ones contain rhenium, molybdenum, or tungsten. An outstanding catalyst is rhenium oxide on alumina, which is active under very mild conditions, viz. room temperature and atmospheric pressure, yielding exclusively the primary metathesis products. [Pg.136]

The rate of the reaction in various buffer solutions, covering the pH range 4-8, was determined, and in hydrogen phosphate-dihydrogen phosphate buffers the rate at constant pH decreased as the concentration of dihydrogen phosphate increased. Similarly, with acetic acid-acetate and phosphoric acid-dihydrogen phosphate buffers the rate was inversely dependent upon the concentration of the molecular acid in addition, with the latter buffer, the kinetic plots showed an unexplained departure from linearity after 50 % reaction. [Pg.363]

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See also in sourсe #XX -- [ Pg.98 , Pg.99 ]



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