Global ETD Search

281	Methodologies to assess the fate of polar organic compounds in aquatic environments Magnér, Jörgen January 2010 (has links) Polar organic compounds (POCs) are chemicals with polar functional groups in their structure. The functional groups make the compounds hydrophilic and less prone to partition with biota. However, the knowledge of their fate is limited due to difficulties associated with their measurements. Although, the persistence of POCs in the environment is generally low, they are considered to be semi-persistent compounds due to their continuous introduction to the environment via wastewater. Studies have shown that complex mixtures of POCs of different classes may have synergistic toxic effects on biota at environmental concentration levels. Therefore, it is important to develop analytical methods in order to establish the occurrence and fate of POCs in aquatic environments. In Study I, a positive correlation between the sorption of a novel poly(ethylene-co-vinyl acetate-co-carbon monoxide) (PEVAC) material and the theoretical logarithmic dissociation partition coefficient (Log D) for seven POCs was observed. The PEVAC material showed an enhanced sorption of the POCs compared to the silicone material. Study II, demonstrated that the PEVAC sampler assess the freely dissolved concentration of POCs in aquatic environments. The results showed that the PEVAC polymer is an attractive alternative to silicone for mimicing the biological uptake of POCs in aquatic environments. Additionally, Study II showed that total extraction is appropriate for determination of the freely dissolved concentration of uncharged POCs with Log KOW < 2.67 in natural water. In study III, a novel bag-solid phase extraction (bag-SPE) technique was compared to a conventional SPE-technique. Despite that the extraction efficiencies for POCs in wastewater were lower using the bag-SPE method, the two methods showed similar detection limits due to the lower ion-suppression experienced with the bag-SPE. In study IV the bag-SPE method was further developed with the aim of lowering the detection limits for POCs. Detection limits (LOD) below 13 ng/L showed that the bag-SPE method was suitable for determination of POCs in surface sea water. / This research was financially supported by European Union (European Commission, FP6 Contract No. 003956) “Novel Methods for Integrated Risk Assessment of Cumulative Stressors in the Environment” (NoMiracle) and by the Swedish research council Formas. Passive equilibrium sampler Absorbent Polar organic compounds Liquid chromatography-mass spectrometry Partitioning coefficient Fulvic acid Sediment PEVAC Bag-SPE Solid phase extraction Pharmaceuticals Wastewater Sea water UPLC-QToF Environmental chemistry Miljökemi Analytical chemistry Analytisk kemi
282	Novel Solid Phase Extraction and Mass Spectrometry Approaches to Multicomponent Analyses in Complex Matrices Amini, Nahid January 2010 (has links) Analysis of compounds present in complex matrices is always a challenge, which can be partly overcome by applying various sample preparation techniques prior to detection. Ideally, the extraction techniques should be as selective as possible, to minimize the concentration of interfering substances. In addition, results can be improved by efficient chromatographic separation of the sample components. The elimination of interfering substances is especially important when utilizing mass spectrometry (MS) as a detection technique since they influence the ionization yields. It is also important to optimize ionization methods in order to minimize detection limits. In the work this thesis is based upon, selective solid phase extraction (SPE) materials, a restricted access material (RAM) and graphitized carbon black (GCB) were employed for clean up and/or pre-concentration of analytes in plasma, urine and agricultural drainage water prior to liquid chromatography/mass spectrometry (LC/MS). Two SPE formats, in which GCB was incorporated in µ-traps and disks, were developed for cleaning up small and large volume samples, respectively. In addition, techniques based on use of sub-2 µm C18 particles at elevated temperatures and a linear ion trap (LIT) mass spectrometer were developed to improve the efficiency of LC separation and sensitivity of detection of 6-formylindolo[3,2-b]carbazole (FICZ) metabolites in human urine. It was also found that GCB can serve not only as a SPE sorbent, but also as a valuable surface for surface-assisted laser desorption ionization (SALDI) of small molecules. The dual functionality of GCB was utilized in a combined screening-identification/quantification procedure for fast elimination of negative samples. This may be particularly useful when processing large numbers of samples. SALDI analyses of small molecules was further investigated and improved by employing two kinds of new surfaces: oxidized GCB nanoparticles and silicon nitride. Sample preparation SPE RAM GCB µ-trap GCB disk High temperature LC LC/MS ESI APCI Matrix effects LIT-MS SALDI Sample screening Oxidized GCB Silicon nitride Analytical chemistry Analytisk kemi
283	New methods for determination of airborne pollutants : Focus on tetrabromobisphenol A, organophosphate triesters and polycyclic aromatic hydrocarbons Tollbäck, Johanna January 2009 (has links) The work presented in this thesis concerns the development and evaluation of new methods of sampling and analysis of organic pollutants in the indoor and outdoor environment. In Paper I, the development of a new method was reported for the determination of the brominated flame retardant tetrabromobisphenol A (TBBPA) in air using sampling with glass fiber filter and polyurethane foam (PUF), ultrasonic solvent extraction and liquid chromatography coupled to electrospray ionisation mass spectrometry (LC-ESI/MS). The MS fragmentation mechanism of TBBPA was thoroughly investigated and different acquisition modes were evaluated to achieve the most sensitive and selective detection. In Papers II and III, the potential use of Empore SPE membranes was evaluated for air sampling of volatile, semi-volatile and particle-associated organic compounds. Breakthrough studies conducted for 24h at air flows of 10- 20 L/min showed that the SPE membranes efficiently retains volatile and semi-volatile organophosphate esters and particles >10 nm. Effort was invested in the development of fast and environmental friendly methods, with low cost, for sample clean up and analysis. In Paper II, the sample preparation technique was dynamic solvent extraction with methanol coupled to LC-ESI/MS. The total run time per sample, including both extraction and separation, was less than 34 min, consuming only 1.6mL methanol. In Paper III, efficiency of selective extraction of polycyclic aromatic hydrocarbons from particulate matter sampled with Empore SPE membranes, using dynamic subcritical water extraction (DSWE) was investigated. Acceptable recoveries of the investigated compounds from reference material (SRM 1649a) were achieved. In Paper IV, the application of dynamic solid phase micro-extraction (SPME) air sampling was evaluated using, gas chromatography/positive ion chemical ionisation (GC/PICI) and tandem-MS detection for the determination of organophosphate esters in work environment. Air sampling sampling methods indoor air SPE SPME extraction dynamic extraction online coupling SWE subcritical water extraction GC/MS LC/MS organophosphate triesters PAH tetrabromobisphenol A Analytical chemistry Analytisk kemi
284	Kadmium som begränsande faktor för användande av tång som biogassubstrat - en laborativ undersökning : / Cadmium as a limiting factor for using algae in biogas production - a laboratory study : Jogbratt, Arvid January 2011 (has links) Sveriges miljömål ”Begränsad klimatpåverkan” beskriver ambitionen att fram till år 2020 ska ha minskat utsläppen av växthusgaser med 40 % gentemot år 1990. Ett sätt för Sverige att lyckas med de uppsatta målen är att utveckla biogasproduktionen. Potentialen för biogasproduktion bedöms vara mycket stor och forskning för att ta fram nya substrat att använda inom biogasframställningen pågår. Ett möjligt substrat är alger, dock har tidigare forskning påvisat höga kadmiumhalter i alger vilket kan innebära problem för spridning av rötresten. Syftet med denna rapport var att genom laborativ och litterär undersökning bedöma algers potential som biogassubstrat och gödningsmedel. Resultaten påvisade höga kadmiumkoncentrationer hos alger vilket försvårar en spridning av kadmium till åkermark. De framtagna gränsvärdena för kadmiuminnehåll hos gödningsmedel överskrids för samtliga prover. Det ringa gödningsvärdet hos rötresten grundas i det låga fosforinnehållet hos algerna. Gaspotentialen för rötning av alger med organiskt avfall visade sig vara mycket god, vilket kan motivera en utveckling av effektiva, billiga, reningsmetoder för kadmium. För Halmstad kommun beräknades energiproduktionen av alger att vara av betydelse om ytterligare utveckling av uppsamling och skörd utreds. Metoder för kadmiumavskiljning har studerats och i Japan har en effektiv reningsmetod som baseras på urlakning följt av adsorption med naturliga koaguleringsmedel framställda från fruktavfall tagits fram. Andra metoder som möjliggör rötning av alger är att kombinera biogasframställning med produktion av energiskog. Odlingarna kan gödslas med den kadmiumrika rötresten, varefter den skördade energiskogen förbränns och renas från kadmium på förbränningsanläggning. Biogas cadmium phosphorus algae seaweed fertilizer residue digestion Biogas kadmium salix gödningsmedel alger tång mineralgödsel konstgödsel aas substrat energi förnybarenergi rötrest miljömål fosfor rötning NATURAL SCIENCES NATURVETENSKAP Analytical chemistry Analytisk kemi
285	Utveckling av en LC-MS-metod för analys av gamma-hydroxibutyrat, gamma-butyrolakton, 1,4-butandiol, amfetamin och metadon Petersson, Birgitta January 2007 (has links) <p>In this project a LC-MS-method for the analysis of gamma-hydroxybutyrate, gamma-butyrolactone, 1,4-butanediol, amphetamine and methadone was developed.</p><p>Initially, the efficiency of the ionisation of the analytes was evaluated with respect to the ionisation technique (ESI, APCI and APPI) and the composition of the mobile phase. In the next step a number of different columns was tested in order to find the one with the greatest potential for separation of the substances in question. Using the selected column, the separation was optimised by means of experimental design and the software The Unscrambler 7.8. The parameters studied were the flow rate, the column temperature and the mobile phase composition. The response variables were the resolution between the target compounds and the retention time of the last eluting compound.</p><p>These experiments showed that, in order to obtain the best ionisation, the mobile phase should consist of 5 mM formic acid in water and acetonitrile. ESI should be used in the positive mode for all analytes except gamma-hydroxybutyrate, for which the negative mode should be applied. The Hypercarb column exhibited superior retention of the analytes and was therefore selected for further optimisation. The dimensions of this column were 2.1 x 50 mm and the particle size 5 μm, connected to a 2.1 x 10 mm precolumn containing the same packing material. The optimum of the flow rate and the column temperature were 250 μl/min and 20 ºC respectively. For the separation of gamma-hydroxybutyrate, gamma-butyrolactone and 1,4-butanediol the mobile phase consisted of 100% water with 5 mM formic acid. Thereafter a gradient, up to 70% acetonitrile with 5 mM formic acid, was used in order to elute amphetamine and methadone. Efforts were also made to find an internal standard for the method. However, none of the compounds tested was found suitable.</p><p>In order to get the method usable for routine analysis, which is the goal, further work is required. A suitable internal standard needs to be added to the method and thereafter work remains with validation of the method.</p> gamma-butyrolactone 1 4-butanediol amphetamine methadone experimental design LC-MS gamma-hydroxybutyrate LC-MS gamma-hydroxibutyrat gamma-butyrolakton 1 4-butandiol amfetamin metadon försöksplanering Analytical chemistry Analytisk kemi
286	Speciation analysis of butyl- and phenyltin compounds in environmental samples by GC separation and atomic spectrometric detection Nguyen Van, Dong January 2006 (has links) The main goal of the work presented in this thesis is to improve the reliability of existing methods for speciation analysis of organotin compounds Species-specific isotope dilution (SSID) calibration in combination with gas chromatography – inductively coupled plasma mass spectrometry was used to investigate the transformation of phenyltin species during sample preparation. Isotope-enriched phenyltin species were synthesized from corresponding isotope-enriched tin metals. SSID with a mixture of phenyltin species (PhTs) from one isotope was used to evaluate different extraction procedures for the determination of PhTs in fresh water sediment. Preparative liquid chromatography was used to produce single isotope-enriched phenyltin species making a multi-isotope spike (MI) SSID calibration possible. Different extraction procedures for the analysis of phenyltin species in biological samples were evaluated by applying MI-SSID. Degradation of TPhT and DPhT during sample extraction was observed and quantified. Accurate results were therefore obtained. A sample preparation procedure using mild extraction conditions with reasonable recoveries is described. The stability of organotin standards was investigated under different storage conditions. Mono- and diphenyltin were found to be redistributed and degraded during storage in methanol but were stabilized in sodium acetate/ acetic acid. A fast redistribution between monobutyl- and diphenyl tin has been observed and therefore it is therefore recommended that standards be derivatized as soon as possible after butyl- and phenyltin standards are mixed. Included in the thesis is also an investigation of the analytical potential of using instrumentation based on atomic absorption spectrometry (AAS) for speciation analysis of organotin compounds. The method was based on gas chromatographic separation, atomization in a quartz tube and detection by line source (LS) AAS and for comparison, by state of the art continuum source (CS) AAS. Analytical performances of CSAAS system were found to be better compared to LSAAS. Organotin speciation analysis species-specific isotope dilution single isotope spike multi-isotope spike redistribution species transformation preparative liquid chromatography gas chromatography Analytical chemistry Analytisk kemi
287	Monolithic separation media synthesized in capillaries and their applications for molecularly imprinted networks Courtois, Julien January 2006 (has links) The thesis describes the synthesis of chromatographic media using several different approaches, their characterizations and applications in liquid chromatography. The steps to achieve a separation column for a specific analyte are presented. The main focus of the study was the design of novel molecularly imprinted polymers. Attachment of monolithic polymeric substrates to the walls of fused silica capillaries was studied in Paper I. With a broad literature survey, a set of common methods were tested by four techniques and ranked by their ability to improve anchoring of polymers. The best procedure was thus used for all further studies. Synthesis of monoliths in capillary columns was studied in Paper II. With the goal of separating proteins without denaturation, various monoliths were polymerized in situ using a set of common monomers and cross-linkers mixed with poly(ethylene glycol) as porogen. The resulting network was expected to present “protein-friendly pores”. Chemometrics were used to find and describe a set of co-porogens added to the polymerization cocktails in order to get good porosity and flow-through properties. Assessment of the macroporous structure of a monolith was described in Paper III. An alternative method to mercury intrusion porosimetry was proposed. The capillaries were embedded in a stained resin and observed under transmission electron microscope. Images were then computed to determine the pore sizes. Synthesis of molecularly imprinted polymers grafted to a core mono-lith in a capillary was described in Paper IV. The resulting material, imprinted with local anaesthetics, was tested for its chromatographic performance. Similar imprinted polymers were characterized by microcalorimetry in Paper V. Finally, imprinted monoliths were also synthesized in a glass tube and further introduced in a NMR rotor to describe the interactions between stationary phase and template in Paper VI. bupivacaine etching phosphorylated tyrosine poly(ethylene glycol) silanization transmission electron microscopy fused silica capillaries isothermal titration calorimetry local anæsthetic molecularly imprinted polymer monolith nuclear magnetic resonance Analytical chemistry Analytisk kemi
288	Inductively Coupled Plasma Spectrometry for Speciation Analysis : Development and Applications Forsgard, Niklas January 2007 (has links) In analytical chemistry the main goal is normally to determine the identity and/or concentration of one or more species in a sample. The samples analyzed are often natural samples, containing numerous different species in a complex matrix and the choice of technique for multi-elemental detection is in general inductively coupled plasma spectrometry. The chemical forms of an element can affect many of its characteristics e.g. toxicity, which makes speciation analysis important. Therefore, determination of the identity and quantity of an element is still important, but for many applications measurements of total element concentration provides insufficient information. To be able to perform speciation analysis, separation, identification and/or characterization of the various forms of elements in the sample has to be accomplished. Speciation analysis has been employed in a wide range of disciplines, including for example environmental science, biology and clinical chemistry. This thesis describes work to improve and understand the elemental speciation analysis with liquid chromatography coupled to plasma spectrometry and also highlights the importance and potential of the synergy between atomic spectrometry and molecular mass spectrometry. The combination of the matrix tolerant, robust and very sensitive plasma spectrometry used together with molecular mass spectrometry, which provides structural information and the possibility to identify unknown species, is demonstrated to be a very powerful tool for speciation analysis. In this thesis methods are developed for on-line sample clean-up and pre-concentration coupled to liquid chromatography and plasma spectrometry, which makes handling of small sample volumes easier and also decreases the risk of contamination. The problems associated with organic modifiers in plasma spectrometry are also addressed. Applications of speciation analysis are exemplified by analysis of aluminium-chelated siderophores in field-soil solutions and organic phosphorous species in aquatic sediments. The possibility to analyze un-dissolved samples as slurries with minimal sample preparation is also discussed. Analytical chemistry Speciation analysis Atomic emission spectrometry (AES) Mass spectrometry (MS) Inductively coupled plasma (ICP) Liquid Chromatography (LC) on-line sample pre-treatment Organic phosphour Siderophores Slurry nebulization matrix effects Analytisk kemi
289	Managing and Exploring Large Data Sets Generated by Liquid Separation - Mass Spectrometry Bäckström, Daniel January 2007 (has links) A trend in natural science and especially in analytical chemistry is the increasing need for analysis of a large number of complex samples with low analyte concentrations. Biological samples (urine, blood, plasma, cerebral spinal fluid, tissue etc.) are often suitable for analysis with liquid separation mass spectrometry (LS-MS), resulting in two-way data tables (time vs. m/z). Such biological 'fingerprints' taken for all samples in a study correspond to a large amount of data. Detailed characterization requires a high sampling rate in combination with high mass resolution and wide mass range, which presents a challenge in data handling and exploration. This thesis describes methods for managing and exploring large data sets made up of such detailed 'fingerprints' (represented as data matrices). The methods were implemented as scripts and functions in Matlab, a wide-spread environment for matrix manipulations. A single-file structure to hold the imported data facilitated both easy access and fast manipulation. Routines for baseline removal and noise reduction were intended to reduce the amount of data without loosing relevant information. A tool for visualizing and exploring single runs was also included. When comparing two or more 'fingerprints' they usually have to be aligned due to unintended shifts in analyte positions in time and m/z. A PCA-like multivariate method proved to be less sensitive to such shifts, and an ANOVA implementation made it easier to find systematic differences within the data sets. The above strategies and methods were applied to complex samples such as plasma, protein digests, and urine. The field of application included urine profiling (paracetamole intake; beverage effects), peptide mapping (different digestion protocols) and search for potential biomarkers (appendicitis diagnosis) . The influence of the experimental factors was visualized by PCA score plots as well as clustering diagrams (dendrograms). Analytical chemistry liquid chromatography capillary electrophoresis capillary electrochromatography mass spectrometry electro spray ionization chemometrics multivariate data analysis peptide biomarkers fingerprints PCA alignment data compression ANOVA target correlation data management Analytisk kemi
290	New tools for sample preparation and instrumental analysis of dioxins in environmental samples Do, Lan January 2013 (has links) Polychlorinated dibenzo-p-dioxins (PCDDs) and dibenzofurans (PCDFs), two groups of structurally related chlorinated aromatic hydrocarbons, are of high concern due to their global distribution and extreme toxicity. Since they occur at very low levels, their analysis is complex, challenging and hence there is a need for efficient, reliable and rapid alternative analytical methods. Developing such methods was the aim of the project this thesis is based upon. During the first years of the project the focus was on the first parts of the analytical chain (extraction and clean-up). A selective pressurized liquid extraction (SPLE) procedure was developed, involving in-cell clean-up to remove bulk co-extracted matrix components from sample extracts. It was further streamlined by employing a modular pressurized liquid extraction (M-PLE) system, which simultaneously extracts, cleans up and isolates planar PCDD/Fs in a single step. Both methods were validated using a wide range of soil, sediment and sludge reference materials. Using dichloromethane/n-heptane (DCM/Hp; 1/1, v/v) as a solvent, results statistically equivalent to or higher than the reference values were obtained, while an alternative, less harmful non-chlorinated solvent mixture - diethyl ether/n-heptane (DEE/Hp; 1/2, v/v) – yielded data equivalent to those values. Later, the focus of the work shifted to the final instrumental analysis. Six gas chromatography (GC) phases were evaluated with respect to their chromatographic separation of not just the 17 most toxic congeners (2,3,7,8-substituted PCDD/Fs), but all 136 tetra- to octaCDD/Fs. Three novel ionic liquid columns performed much better than previously tested commercially available columns. Supelco SLB-IL61 offered the best overall performance, successfully resolving 106 out of the 136 compounds, and 16 out of the 17 2,3,7,8-substituted PCDD/Fs. Another ionic liquid (SLB-IL111) column provided complementary separation. Together, the two columns separated 128 congeners. The work also included characterization of 22 GC columns’ selectivity and solute-stationary phase interactions. The selectivities were mapped using Principal Component Analysis (PCA) of all 136 PCDD/F’s retention times on the columns, while the interactions were probed by analyzing both the retention times and the substances’ physicochemical properties. PCDD/Fs dioxins pressurized liquid extraction PLE selective SPLE modular M-PLE soil sediment sludge gas chromatography new stationary phases multivariate data analysis selectivity interaction Environmental Sciences Miljövetenskap Analytical Chemistry Analytisk kemi

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