Big Chemical Encyclopedia

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

Articles Figures Tables About

Bonded silicas

The analysis of cigarette smoke for 16 different polyaromatic hydrocarbons is described in this experiment. Separations are carried out using a polymeric bonded silica column with a mobile phase of 50% v/v water, 40% v/v acetonitrile, and 10% v/v tetrahydrofuran. A notable feature of this experiment is the evaluation of two means of detection. The ability to improve sensitivity by selecting the optimum excitation and emission wavelengths when using a fluorescence detector is demonstrated. A comparison of fluorescence detection with absorbance detection shows that better detection limits are obtained when using fluorescence. [Pg.613]

Mass-action model of surfactant micelle formation was used for development of the conceptual retention model in micellar liquid chromatography. The retention model is based upon the analysis of changing of the sorbat microenvironment in going from mobile phase (micellar surfactant solution, containing organic solvent-modifier) to stationary phase (the surfactant covered surface of the alkyl bonded silica gel) according to equation ... [Pg.81]

On the other hand, if the stationary phase consists of bonded silica containing hydrocarbon chains, then the stationary phase interactions with the solute would be... [Pg.443]

The use of bonded, silica column supports has also become a useful way to characterize cationic, water-soluble polymers. CATSEC SEC columns from Micra Scientific contain a silica support with a polymerized polyamine-bonded phase. This imparts a cationic surface charge on the packing that can be... [Pg.573]

These small columns,(usually 10 mm X 1-4.6 mm i.d.) are normally packed with 10-40 p.m sorbents such as Cig-bonded silica, Cg-bonded silica or styrene-divinylbenzene copolymer. These sorbents are not very selective and more selective sorbents, such as the immunosorbent (94), have also been used with good results. Coupling of SPE-gas chromatography is in fact the one most often used in environmental analysis because it reaches a high level of trace enrichment, eliminates water and elutes retained compounds easily with an organic solvent that can be injected into the gas chromatograph. [Pg.361]

J. Slobodnik, O. Ostezkizan, H. Lingeman and U. A. Th Brinkman, Solid-phase extraction of polar pesticides from environmental water samples on grapliitised carbon and Empore-activated carbon disks and on-line coupling to octadecyl-bonded silica analytical columns , J. Chromatogr. 750 227-238 (1996). [Pg.374]

To determine secondary alkanesulfonates in sewage wastewaters, solid phase extraction (SPE) and a single-step procedure which combines elution and injection port derivatization for analysis with GC-MS were developed [36]. Again a tetrabutylammonium ion pair reagent was employed both to elute the secondary alkanesulfonates as their ion pairs from CI8-bonded silica disks and to derivatize sulfonate ion pairs under GC injection port conditions. Secondary alkanesulfonates were effectively recovered from samples of raw sewage (>92%) and from primary (>98%) and secondary (>85%) effluents. No... [Pg.170]

The alternative technique for analyzing 1,4-dioxane is HPLC. Scalia proposed a method by solid-phase extraction using octadecyl-bonded silica cartridges and analyzed directly on a reverse phase column with UV detection at 200 nm and acetonitrile-water as eluent [328-330]. [Pg.287]

Haliclonacyclamine F (25), arenosclerin D (26), and arenosclerin E (27) have been recently isolated from the sponge Pachychalina alcaloidifera endemic in Brazil [26]. The alkaloids 25-27 were isolated from the cytotoxic, antibiotic, and antituberculosis MeOH crude extract of P. alcaloidifera by a series of separations on silica-gel and cyanopropyl-bonded silica-gel columns. The structures of compounds 25-27 were established by the same approach employed for the structural elucidation of haliclonacyclamine E (13) and arenosclerins A-C (14-16) [18], as well as by comparison with NMR data for this last series of alkaloids. The alkaloids 25-27 displayed moderate cytotoxic activity against SF295 (human CNS), MDA-MB435 (human breast), HCT8 (colon), and HL60 (leukemia) cancer cell lines. [Pg.219]

Mixing the additive in the eluent used as a mobile phase can also modify the chromatographic system (dynamic modification), but the use of modified adsorbents has led to an improvement of resolution. Example works include that by Armstrong and Zhou [11], who used a macrocyclic antibiotic as the chiral selector for enantiomeric separations of acids, racemic drugs, and dansyl amino acid on biphenyl-bonded silica. [Pg.202]

Buszewski, B., Gadza-la-Kopciuch, R. M., Markuszewski, M. L, Kaliszan, R. Chemically bonded silica stationary phases synthesis, physicochemical characterization, and molecular mechanism of reversed-phase HPLC retention. Anal. Chem. 1997, 69, 3277-3284. [Pg.351]

Quantitatively transfer the hydrolysis reaction solution to a 50-mL glass culture tube with a screw-cap by rinsing witli 3x5 mL of deionized water followed by 5 mL of 30% (v/v) sulfuric acid and one additional 5 mL of deionized water. Rinse the Teflon culture tube with acetone and transfer to the glass culture tube. Extract the acidic aqueous phase (pH 1) with 3 x 2.5 mL of toluene. Pass each upper toluene phase through approximately 3 g of anhydrous sodium sulfate contained in a 6-mL disposable filtration cartridge into a 10-mL volumetric flask. Adjust the volume of the solution to 10 mL with toluene. Condition a 3-mL diolsilane bonded silica gel SPE cartridge with two column volumes of toluene. Load a 5-mL aliquot of toluene solution and collect the eluate in a 125-mL round-bottom flask. Elute the column with an additional 50 mL of toluene (use the 75-mL reservoirs) and collect the eluate in the same round-bottom flask. Concentrate the toluene extract to approximately 3.0 mL at 40 °C under weak reduced pressure with a rotary evaporator. [Pg.1204]

Figure 4.10 Typical routine column test chromatogram for a 30 cm X 4.6 mm I. D. column pacXed with an octadecylsiloxane bonded silica packing of lO micrometers particle diameter. The test mixture consisted of resorcinol (0.55 mg/ml), acetophenone (0.025 mg/ml), naphthalene (0.20 mg/ml) and anthracene (0.01 mg/ml) in acetonitrile, 10 microliters injected. The separation was performed isocratically at 23 C with acetonitrile-water (55 45) as the mobile phase at a flow rate of 1.5 ml/min. Detection was by UV at 254 nm (0.1 AUFS). Figure 4.10 Typical routine column test chromatogram for a 30 cm X 4.6 mm I. D. column pacXed with an octadecylsiloxane bonded silica packing of lO micrometers particle diameter. The test mixture consisted of resorcinol (0.55 mg/ml), acetophenone (0.025 mg/ml), naphthalene (0.20 mg/ml) and anthracene (0.01 mg/ml) in acetonitrile, 10 microliters injected. The separation was performed isocratically at 23 C with acetonitrile-water (55 45) as the mobile phase at a flow rate of 1.5 ml/min. Detection was by UV at 254 nm (0.1 AUFS).
The covalently bonded solids such as silica cannot be easily broken by aqueous solutions. For example, the strong Si-O bonds silica is not dissolvable by boiling with concentrated acids except hydrofluoric acid because of the formation of silicon fluoride which is a gas and expels otherwise else it may form fluosilicic acid by reaction with water. [Pg.475]

Norwalk, CT) Waters pBondapak -NH2 Amine-bonded silica 10 p, 125 A 3.5% C not endcapped... [Pg.8]

Monde, T., Kamiusuki, T., Kuroda, T., Mikumo, K., Ohkawa, T., and Fukube, H., High-performance liquid chromatographic separation of phenols on a fluorocarbon-bonded silica gel column, /. Chromatogr. A, 722, 273, 1996. [Pg.51]

Wan, Q.- H., Davies, M. C., Shaw, P. N., and Barrett, D. A., Retention behavior of ionizable isomers in reversed-phase liquid chromatography a comparative study of porous graphitic carbon and octadecyl bonded silica, Anal. Chem., 68, 437, 1996. [Pg.193]

McCalley, D. V., Effect of organic solvent modifier and nature of solute on the performance of bonded silica reversed-phase columns for the analysis of strongly basic compounds by high-performance liquid chromatography, /. Chromatogr A, 738(2), 169, 1996. [Pg.210]

Stationary phase Chemically bonded silica, alumina, polymeric resins Polysiloxanes... [Pg.206]


See other pages where Bonded silicas is mentioned: [Pg.121]    [Pg.443]    [Pg.29]    [Pg.31]    [Pg.259]    [Pg.314]    [Pg.309]    [Pg.285]    [Pg.225]    [Pg.214]    [Pg.419]    [Pg.426]    [Pg.736]    [Pg.823]    [Pg.828]    [Pg.1158]    [Pg.1159]    [Pg.1160]    [Pg.341]    [Pg.345]    [Pg.345]    [Pg.346]    [Pg.394]    [Pg.395]    [Pg.397]    [Pg.711]    [Pg.713]    [Pg.845]    [Pg.854]    [Pg.905]    [Pg.106]   
See also in sourсe #XX -- [ Pg.222 , Pg.223 ]




SEARCH



Adsorbent silica with bonded fullerenes

Amide-bonded silica

Aminopropyl-bonded silica

Bond breaking, silica

Bonded Phase Silica Gels

Bonded phase silica-based

Bonded phases from silica

Bonded stationary phases silica, base material

Bonded-phase silica cartridges

Chemically bonded silica phases

Chemically bonded silica, chromatography

Chemically bonded silicas

Chromatographic cyclodextrin-bonded silica

Cyanopropyl-bonded silica

Hydrophilic-Bonded Silica Gels

Ligands bonded silica sorbents

Octadecyl-bonded silica (ODS

Octadecylsilyl-bonded silica

Phenyl-bonded silica

Reversed Phase Bonded Silica Gels

Reversed phase chemically bonded silica gel

Separation of MDA on an amino-bonded silica phase

Separator amide-bonded silica

Separator aminopropyl-bonded silica

Separator cyanopropyl-bonded silica

Silica bonded phases

Silica bonding

Silica bonding

Silica gel bonding

Silica hydrogen bonding

Silica with Bonded Polar Functional Groups

Silica-bonded phases, isolation

Silica-oxygen-alumina bonds

Silicas chemically bonded silica

Silicas ether bonded types

Vulcanization silica-rubber bonding

© 2024 chempedia.info