Big Chemical Encyclopedia

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

Articles Figures Tables About

Bonded-phase supports

Herman, D. P, Field, L. R., and Abbott, S., The size-exclusion chromatographic behavior of synthetic water-soluble polymers on diol bonded phase supports, /. Chromatogr. Sci., 19, 470, 1981. [Pg.362]

Bonded-Phase Supports The bonded-phase supports usually overcome plethora of the nagging problems which is mostly encountered with adsorbed-liquid phases. Here the molecules, comprising the stationary phase, i.e., the surfaces of the silica particles, are covalently bonded to a silica-based support particle. [Pg.453]

LC Tan, PW Carr. Revisionist look at solvophobic driving forces in reversed-phase liquid chromatography. II. Partitioning vs. adsorption mechanism in monomeric alkyl bonded phase supports. J Chromat A 775 1-12, 1997. [Pg.396]

Two excellent reviews that detail procedures for the preparation of bonded phase supports have recently been published by Leonard - and Buchmeiser. One of the most popular methods of surface chemical modification involves the use of organosilanes. These organosilanes react with the surface metal hydroxyl groups and form a surface, which may be represented as M-O-R, where R represents an alkyl chain and M represents the metal (i.e., silica, zirconia, titania, etc.). One important factor that must be stated, however, is that the order of stability of M-O-R bonds increases in the order of M=Si > Zr > Ti > Improvements in the hydrolytic... [Pg.1744]

The use of small spherical particles for NPC results in plate numbers in excess of 10,000 which compares favourably with the efficiencies of stationary phases currently in use for reversed phase HPLC. A list of the common functional groups used in NPC are shown in Table 6.1. Most of the popular supports used in NPC are silica based since alumina undergoes undesirable side reactions (e.g. irreversible reaction with carboxylic acid). The introduction of bonded phase supports has led to the availability of many other polar stationary phases, some of which can also be used in the reversed phase mode (Lochmuller et al., 1979). A bonded diamino phase was found to be optimal for aromatic hydrocarbons (Chmielowiec and George, 1980). [Pg.69]

This double bond attachment is substantiated by carbon/hydrogen analysis before and after bonding. Furthermore, the basic high stability of the cyclodextrin bonded phases support the idea that a significant number of these types of double bond attachments are, in fact, present. In addition, it is not theoretically impossible that one cyclodextrin molecule could be anchored to the silica by three or more chains, although such attachment bonds have not been experimentally confirmed or identified. These types of phases have been used very successfully in the resolution of the enantiomers of a number of P- blockers (e.g. Propranolol, Atenolol,... [Pg.280]

The rationale used in developing inorganic bonded phase supports for SEC is based on the following facts ... [Pg.65]

Cyclodextrin stationary phases utilize cyclodextrins bound to a soHd support in such a way that the cyclodextrin is free to interact with solutes in solution. These bonded phases consist of cyclodextrin molecules linked to siUca gel by specific nonhydrolytic silane linkages (5,6). This stable cyclodextrin bonded phase is sold commercially under the trade name Cyclobond (Advanced Separation Technologies, Whippany, New Jersey). The vast majority of all reported hplc separations on CD-bonded phases utilize this media which was also the first chiral stationary phase (csp) developed for use in the reversed-phase mode. [Pg.97]

The Liquid Phase. The stationary phase in an open tubular column is generally coated or chemically bonded to the wall of the capillary column in the same way the phase is attached to the support of a packed column. These are called nonbonded and bonded phases, respectively. In capillary columns there is no support material or column packing. [Pg.106]

The stationary phase can be apportioned in a similar manner. For example, with a bonded phase, due to the porous nature of the support, some of the pores will become blocked with stationary phase and so the total amount of stationary phase can be divided into that which is chromatographically available (Vs(A)) and that which is chromatographically unavailable (Vs(u)). [Pg.36]

The other restriction of SynChropak size exclusion columns is a general one for silica-based supports, that of pH. The most harmful pH is that above 7.5 due to silica dissolution. The bonded phase of SynChropak GPC has some polymeric properties therefore, it is not removed rapidly from the silica at pH 2-3. The bonded phase of SynChropak CATSEC is polymeric and stable at pH 2-7.5. [Pg.323]

Scientific (Northbrook, IL) contain a silica support with a -y-glycidoxypropylsi-lane-bonded phase to minimize interaction with anionic and neutral polymers. The columns come in five different pore sizes ranging from 100 to 4000 A. The packing material has a diameter from 5 to 10 /cm and yields in excess of 10,000 plate counts. With a rigid silica packing material, the columns can withstand high pressure (maximum of 3000 psi) and can be used under a variety of salt and/or buffered conditions. A mobile phase above pH 8, however, will dissolve the silica support of the column (21). A summary of the experimental conditions used for Synchropak columns is described in Table 20.8. [Pg.572]

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]

Bonded-phase chromatography (BPC). To overcome some of the problems associated with conventional LLC, such as loss of stationary phase from the support material, the stationary phase may be chemically bonded to the support material. This form of liquid chromatography, in which both monomeric and polymeric phases have been bonded to a wide range of support materials, is termed bonded-phase chromatography . [Pg.219]

The drawback of the described adsorbents is the leakage of the bonded phase that may occur after the change of eluent or temperature of operation when the equilibrium of the polymer adsorption is disturbed. In order to prepare a more stable support Dulout et al. [31] introduced the treatment of porous silica with PEO, poly-lV-vinylpyrrolidone or polyvinylalcohol solution followed by a second treatment with an aqueous solution of a protein whose molecular weight was lower than that of the proteins to be separated. Possibly, displacement of the weakly adsorbed coils by the stronger interacting proteins produce an additional shrouding of the polymer-coated supports. After the weakly adsorbed portion was replaced, the stability of the mixed adsorption layer was higher. [Pg.144]

It should be recalled that all substances that are used as stationary phases, or as supports for bonded phases, that have pores commensurate with the size of the molecules being separated, will exhibit exclusion properties. Thus, even if the solutes are retained largely as a result of the interactions of the solute molecules and those of the two phases if, due to their size, some molecules can interact with more stationary phase than others, then the retention will also be controlled to some extent by exclusion. The term exclusion chromatography is, therefore, usually confined to those separations where retention is controlled... [Pg.282]

Other modes of LC operation include liquid-liquid partition chromatography (LLC) and bonded phase chromatography. In the former, a stationary liquid phase which is immiscible with the mobile phase is coated on a porous support, with separation based on partition equilibrium differences of components between the two liquid phases. This mode offers an alternative to ion exchange in the fractionation of polar, water soluble substances. While quite useful, the danger exists in LLC that the stationary phase can be stripped from the column, if proper precautions are not taken. Hence, it is typical to pre-equil-ibrate carefully the mobile and stationary phases and to use a forecolimn, heavily loaded with stationary phase 9). [Pg.227]

The IR spectra in Fig.7 indicate the preferential adsorption of NO on the Co sites. It may be conjectured that the Mo sulfide species are physically covered by the Co sulfide species or that Co-Mo mixed sulfide species are formed and the chemical natures of the Co and Mo sulfides are mutually modified. The Mo K-edge EXAFS spectra were measured to examine the formation of mixed sulfide species between Co and Mo sulfides. The Fourier transforms are presented in Fig.8 for MoSx/NaY and CoSx-MoSx/NaY. The structural parameters derived from EXAFS analysis are summarized in Table 1. The structure and dispersion of the Mo sulfides in MoSx/NaY are discussed above. With the Co-Mo binary sulfide catalyst, the Mo-Co bondings are clearly observed at 0.283 nm in addition to the Mo-S and Mo-Mo bondings. The Mo-Co distance is close to that reported by Bouwens et al. [7] for a CoMoS phase supported on activated carbon. Detailed analysis of the EXAFS results for CoSx-MoSx/NaY will be presented elsewhere. It is concluded that the Co-Mo mixed sulfides possessing Co-S-Mo chemical bondings are formed in CoSx-MoSx/NaY. [Pg.509]

Figure 3.48. An artist impression of possible shapes of catalyst particles present on a support a. spherical particle with only one point contact to support, b. hemispherical particle, strongly bonded to support and partially poisoned, c. metal crystallite, strongly bonded to and partially encapsulated in support, d. complete wetting of the support by the active phase. After Scholten et al, 1985 and Ba.stein cr a/., 1987. Figure 3.48. An artist impression of possible shapes of catalyst particles present on a support a. spherical particle with only one point contact to support, b. hemispherical particle, strongly bonded to support and partially poisoned, c. metal crystallite, strongly bonded to and partially encapsulated in support, d. complete wetting of the support by the active phase. After Scholten et al, 1985 and Ba.stein cr a/., 1987.
Crude chloroform-methanol-water (30 60 8, v/v) extracts of immunostainedTLC bands were analyzed without further purification by nanoelectrospray low-energy mass spectrometry. The authors showed that this effective PLC/MS-joined procedure offers a wide range of applications for any carbohydrate-binding agents such as bacterial toxins, plant lectins, and others. Phenyl-boronic acid (PBA) immobilized on stationary support phases can be put to similar applications. This technology, named boronate affinity chromatography (BAC), consists of a chemical reaction of 1,2- and 1,3-diols with the bonded-phase PBA to form a stable... [Pg.209]

See other pages where Bonded-phase supports is mentioned: [Pg.108]    [Pg.148]    [Pg.114]    [Pg.248]    [Pg.190]    [Pg.52]    [Pg.51]    [Pg.134]    [Pg.222]    [Pg.529]    [Pg.108]    [Pg.148]    [Pg.114]    [Pg.248]    [Pg.190]    [Pg.52]    [Pg.51]    [Pg.134]    [Pg.222]    [Pg.529]    [Pg.54]    [Pg.99]    [Pg.305]    [Pg.310]    [Pg.315]    [Pg.145]    [Pg.67]    [Pg.242]    [Pg.285]    [Pg.311]    [Pg.14]    [Pg.162]    [Pg.167]    [Pg.211]    [Pg.587]    [Pg.587]    [Pg.852]    [Pg.1012]   
See also in sourсe #XX -- [ Pg.453 ]



SEARCH



Bonded phase

Bonded phase phases

© 2024 chempedia.info