Triton® X

Surface heterogeneity may be inferred from emission studies such as those studies by de Schrijver and co-workers on P and on R adsorbed on clay minerals [197,198]. In the case of adsorbed pyrene and its derivatives, there is considerable evidence for surface mobility (on clays, metal oxides, sulfides), as from the work of Thomas [199], de Mayo and co-workers [200], Singer [201] and Stahlberg et al. [202]. There has also been evidence for ground-state bimolecular association of adsorbed pyrene [66,203]. The sensitivity of pyrene to the polarity of its environment allows its use as a probe of surface polarity [204,205]. Pyrene or ofter emitters may be used as probes to study the structure of an adsorbate film, as in the case of Triton X-100 on silica [206], sodium dodecyl sulfate at the alumina surface [207] and hexadecyltrimethylammonium chloride adsorbed onto silver electrodes from water and dimethylformamide [208]. In all cases progressive structural changes were concluded to occur with increasing surfactant adsorption. [Pg.418]

Triton X-100 and y-cyclodextrin, and subsequent charge separation via reductive quenching Chem. Phys. Lett. 223 511-16... [Pg.2433]

Hg ", Zn ", Cd " ) light emission is shifted to the red (610—615 nm). In vitro a flash of light is produced (< 1 s) that decays rapidly. Glow-type emission is obtained ia the presence of detergents (Triton X-100), polymers (PEG 6000), coen2yme A, inorganic pyrophosphate, and cytidine nucleotides (206,207). [Pg.272]

Triton x 100 alkylaryl polyether alcohol emulsifier aids in dispersing oils over mbber particles... [Pg.17]

Examples of nonionic surfactants are Emulphor ON and the Igepals (both Antara Chemicals), and Triton X-100 (Rohm Haas Company). [Pg.259]

Chemical lysis, or solubilization of the cell wall, is typically carried out using detergents such as Triton X-100, or the chaotropes urea, and guanidine hydrochloride. This approach does have the disadvantage that it can lead to some denaturation or degradation of the produci. While favored for laboratory cell disruption, these methods are not typically used at the larger scales. Enzymatic destruction of the cell walls is also possible, and as more economical routes to the development of appropriate enzymes are developed, this approach could find industrial application. Again, the removal of these additives is an issue. [Pg.2059]

In the present work it was studied the dependence of analytical characteristics of the composite SG - polyelectrolyte films obtained by sol-gel technique on the content of non-ionic surfactant in initial sol. Triton X-100 and Tween 20 were examined as surfactants polystyrene sulfonate (PSS), polyvinyl-sulfonic acid (PVSA) or polydimethyl-ammonium chloride (PDMDA) were used as polyelectrolytes. The final films were applied as modificators of glass slides and pyrolytic graphite (PG) electrode surfaces. [Pg.306]

The ion- exchange properties of the composite films were studied by spectrophotometric and voltammetric methods using soi ption of Fe(Phen) + and rhodamine 6G for PVSA-SG or PSS-SG films and methyl orange or lumogallion (LG) for PDMDA-SG films. Tween-20 at its cmc and higher level was shown to be better stmcture directed additive than Triton X-100. [Pg.306]

SG sols were synthesized by hydrolysis of tetraethyloxysilane in the presence of polyelectrolyte and surfactant. Poly (vinylsulfonic acid) (PVSA) or poly (styrenesulfonic acid) (PSSA) were used as cation exchangers, Tween-20 or Triton X-100 were used as non- ionic surfactants. Obtained sol was dropped onto the surface of glass slide and dried over night. Template extraction from the composite film was performed in water- ethanol medium. The ion-exchange properties of the films were studied spectrophotometrically using adsorption of cationic dye Rhodamine 6G or Fe(Phen) and potentiometrically by sorption of protons. [Pg.317]

Two methods of sample preparation were investigated. The former is dilution of blood semm with 0.1% Triton X-100, the latter is aeid mierowave digestion. As evaluated, the most adequate mineralization proeedure for determining the majority of elements in blood semm by ICP AES is aeid mierowave digestion. However, the ICP AES determination of abundant elements (B, Si, Mn), whieh present in semm at 0.001-0.01 ppm levels should be follow sample dilution with Triton X-100. [Pg.360]

It was found that the effect of solvents and various surfactants Triton X-100, Twin-80, Brij-35 sodium laurylsulfate, sodium cetylsulfate, cetylpyridinium chloride, cetyltrimethylammonium bromide on the luminescence intensity is insignificant. [Pg.391]

Purified by dissolving in Triton X-100 and deoxycholate, and by affinity chromatography on concanavalin A-Sepharose and AMP-Sepharose [Grondal and Zimmerman Biochem J 245 805 1987]. [Pg.553]

Rcnsl dipcptidflsc (from porcine kidney cortex) [9031-96-3] Mr 47,000 [EC 3.4.13.11]. Purified by homogenising the tissue, extracting with Triton X-100, elimination of insoluble material, and ion-exchange, size exclusion and affinity chromatography. [Hitchcock et al. Anal Biochem 163 219 7957.]... [Pg.564]

Triton X-100 dansyl amides and amino acids 30 to 110-fold spray solution, 20% in chloroform [265, 290]... [Pg.108]

Triton X-100 ethoxyquin (antioxidant in spices) > 200-fold, stabilization > 15 h spray solution, 33% in benzene the fluorescence of aflatoxin Bi is reduced by 10 to 15% [292]. [Pg.108]

Triton X-100 polycyclic aromatic hydrocarbons 10-fold 1% solution in n-hexane optimal emission after 60 min 10% zone enlargement [234]... [Pg.108]

Triton X-100 selenium as 2,1,3-naphthoselenodiazole 90-fold dipping solution, 20% in chloroform (Fig. 53 [231])... [Pg.108]

FIGURE 9.3 The structures of some common detergents and their physical properties. Micelles formed by detergents can be quite large. Triton X-100, for example, typically forms micelles with a total molecular mass of 90 to 95 kD. This corresponds to approximately 150 molecules of Triton X-100 per micelle. [Pg.262]

Since it might be possible that the perturbation of membrane directly stimulated the NADPH-oxidase located on the cell membrane, which is the enzyme for the production of superoxide [24], the possibility was examined by the assay using detergent (Triton X-100) instead of polymers. At 0.001% of Triton X-100, no stimulation of superoxide release from DMSO-differentiated HL-60 cells was observed. At 0.01% of Triton X-100, a... [Pg.185]

Among them, 38a and 38b are water soluble and they can be considered as the non-micellar counterparts. All other ligands are water insoluble but can be solubilized in CTAB or Triton X-100 micelles. [Pg.158]

Fig. 5a and b. a Plots of kobrf m. concentration of CTAB for the release of p-nitrophenol from 1. b Plots of kobs[Pg.158]

The apparent difference seems to be due to the difference in the binding constants of the complexes to micelles which is much larger in the lipophilic 38c than in the hydrophilic 38b complex27 . A somewhat different, but not an unusual micellar effect is observed in the case of the non-ionic surfactant Triton X-100 as shown in... [Pg.159]

The uncatalyzed rates in the Triton X-100 micelle are much smaller than those of the CTAB micelle as expected in ionic micellar reactions. However, in the catalyzed reactions much larger rate enhancements occur in the former micelle than in the latter micelle, similarly as in achiral systems (Table 4, 5). In Table 10, ester 50 shows... [Pg.168]

See other pages where Triton® X is mentioned: [Pg.2578] [Pg.1100] [Pg.1027] [Pg.150] [Pg.18] [Pg.358] [Pg.405] [Pg.405] [Pg.120] [Pg.2059] [Pg.199] [Pg.503] [Pg.572] [Pg.572] [Pg.572] [Pg.108] [Pg.262] [Pg.154] [Pg.160] [Pg.160] [Pg.162] [Pg.162] [Pg.162] [Pg.166]

See also in sourсe #XX -- [ Pg.159 , Pg.198 ]

See also in sourсe #XX -- [ Pg.432 ]

See also in sourсe #XX -- [ Pg.330 , Pg.348 , Pg.816 ]

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