Modern mass spectrometric techniques applied to occupational hygiene analysis

Ford, Michael James

January 2002

No description available.

615

Liquid chromatography

The elucidation of retention behaviour of molecular interactions on bonded phases in reversed phase liquid chromatography

Kayillo, Sindy, University of Western Sydney, College of Science, Technology and Environment, School of Science, Food and Horticulture

January 2005

Separations depend on the molecular interactions occurring on retentive surfaces. Much time and effort is paid in the design and manufacture of chromatographic surfaces that enhance separation capability. This thesis explores some of the design concepts currently available in the market place, and while doing so, investigates the mode of retention on a range of solute species. The information gained from the investigation of the retention and thermodynamic retention behaviour of stationary phases, along with molecular modelling carried out on their stationary phase ligand conformation assists in the design of stationary phase materials that enhance separations. Results from this study indicate that the aromatic functionality on the Synergi-polar-RP column may be diminished, due to the orientation of the phenyl ring on the stationary phase surface. / Doctor of Philosophy (PhD)

liquid chromatography

chromatographic analysis

Novel approaches to enhancing selectivity and efficiency in microscale liquid chromatography

Vallano, Patrick T.

06 March 2001

For a number of reasons, miniaturization of chromatographic columns has been a general trend over the past three decades. Methods designed to enhance selectivity and efficiency can offer improved separation power and speed, expanding on the advantages of miniaturized columns. This dissertation describes novel approaches in this direction, focusing on two areas: the development of affinity-type sorbents for capillary HPLC derived from molecular imprinted polymers (MIPs) and the study of perfusive electroosmosotic flow (EOF) and its effect on efficiency in capillary electrochromatography (CEC). MIPs are synthetic polymers capable of selectively binding a template molecule incorporated prior to polymerization. MIPs prepared using nortripyline, a tricyclic antidepressant drug, were employed to screen a simulated chemical library, consisting of a series of structural analogs and related compounds. A parameter was introduced to quantify the selective retention of the analytes. Library compounds containing the major structural features of the template (ring structure and pendant 2�� amine) exhibited the highest affinity for the MIP. The use of macroporous packings under conditions of electroosmotic perfusion can result in improved chromatographic efficiencies. In this work, the performance of CEC columns packed with particles having different nominal pore diameters was investigated. The results indicate that perfusive EOF can yield significant gains in efficiency and speed, especially when wide pore packings and dilute buffers are employed. A model was developed that estimates the extent of perfusive EOF expressed as an effective particle diameter, d[subscript p,eff] The results suggest that the observed efficiency gains are not entirely due to smaller d[subscript p,eff] values and could perhaps be due to a decreased A term in the wide pore packings. The electrical conductivity of CEC columns was used to assess intraparticle flow permeability under conditions of perfusion. Results for the narrow pore (100 ��) column were in agreement with theory for nonporous spheres, indicating intraparticle current was negligible, while the wide pore (1000 and 4000��) columns exceeded theoretical values by a factor of two. These results provide evidence of the existence of "through-pores" and that intraparticle flow permeability (and potential for improved efficiency with perfusion) is greatest with wide pore packings. / Graduation date: 2001

Capillary liquid chromatography

The distribution of organic bases in reverse phase liquid chromatography : a study of mechanisms

Jayasinghe, Dudley Shelton

05 September 1989

The distribution of hydrophobic ionogenic organic compounds (HIOC's) between aqueous and nonaqueous phases has been investigated. The HIOC's are aniline and methyl substituted anilines. The aqueous phases are methanol-water mixed solvents with varying pH and ionic strength. The nonaqueous phases are silica and alkyl derivatized silica with ethyl- (C-2), octyl- (C-8), and octadecyl- (C-18) silanes. A gas-liquid equilibration method has been developed to determine the Henry's law constants and the activity coefficients of methyl anilines in methanol-water mixed solvents. The logarithm of the Henry's law constants vary quadratically with the volume fraction of methanol. The chromatographic study has been performed to investigate the effect of three mobile phase factors, fraction of methanol, pH, and ionic strength, on the retention of methyl anilines on different stationary phases. The logarithm of mass distribution ratios, log k's, of methyl anilines vary linearly with the volume fraction of methanol. The ratios of H / k' of methyl anilines increase with increase in methanol in the mobile phase, indicating an increase in the activity coefficients in the stationary phases. This observation is found to be true for different methyl anilines in different stationary phases. A partition model is presented to describe the effect of pH and ionic strength on the retention of HIOC's in the mobile phase. The variation in log k' among neutral and ionic methyl anilines can be explained by linear free energy relationships. Equations are established to predict retention of neutral or ionized methyl anilines from their octanol-water partition coefficients at any methanol content in the mobile phase. Acid dissociation constants of methyl anilines determined from the dependence of log k' on pH are in close agrement with those determined by potentiometric titrations. The effect of ionic strength on the retention of both neutral and ionic species of methyl anilines is negligible. That is, the contribution from electrostatic energy and salting out effect are not significant. The chromatographic study is extended to study the retention of methyl anilines on silica as a function of pH and methanol at a constant ionic strength. The dependence of retention on pH is qualitatively interpreted from an ion exchange reaction between the dissociated silanol groups in the surface and the ionized methyl anilines. The effect of methanol on the retention of methyl anilines and of pyridine on silica is described by a quadratic relationship between the log k' and volume fraction of methanol. / Graduation date: 1990

Liquid chromatography

Aromatic amines

A SPECTROSCOPIC STUDY OF RHODAMINE-6G: DETECTION OF NONABSORBING ANALYTES IN REVERSE-PHASE CHROMATOGRAPHY WITH THE AID OF RHODAMINE-6G (FLUORESCENCE, ABSORPTION)

Tsakanikas, Panayotis Dimitrios Sokrates

January 1985

No description available.

Liquid chromatography.

Dyes and dyeing.

Studies with an aerosol generation interface for liquid chromatography-mass spectrometry

Willoughby, Ross Clark

08 1900

No description available.

Liquid chromatography

Mass spectrometry

Particle beam LC/MS with fast atom bombardment

Kirk, John Daniel

05 1900

No description available.

Liquid chromatography

Chromatographic analysis

High performance liquid chromatography with new bonded stationary phases

Gabelman, Steven Neil

08 1900

No description available.

Liquid chromatography

Ethers

Interfacing packed column supercritical fluid chromatography with mass spectrometry using the particle beam interfaceBurdette

Burdette, Diana Marguerite

08 1900

No description available.

Mass spectrometry

Liquid chromatography

A swept potential electrochemical detector for high performance liquid chromatography

Reardon, Patricia Altagracia Flaquer

05 1900

No description available.

Electrochemistry

Liquid chromatography