Kemi i förskolan och yngre barns lärandemiljö.

Gäärd, Linda

January 2015

No description available.

Kemi i förskolan Lärandemiljöer

Kemi i förskolan

Domanders, Sofie

January 2011

Denna undersökning har som syfte att ta reda på vad barnen i förskolan anser om att delta i kemiexperiment och vad som händer i barngruppen under experimenten. För att studera dessa frågor har jag gjort observationer med hjälp av videokamera och intervjuer av barnen som deltagit i experimenten. Barnen har visat stort intresse, engagemang, glädje och nyfikenhet vilket har genomsyrat experimenttillfällena. Resultaten i denna undersökning visar att kemiexperiment kan vara ett bra verktyg i förskolan. Barnen interagerar med varandra, associerar till tidigare erfarenheter i livet och ger uttryck för att uppleva, med många av sina sinnen.

Barn

förskola

kemi

naturvetenskap

Development and Validation of a Liquid Chromatography-Tandem Mass Spectrometry Method for Determination of Cyclosporine A in Whole Blood

Jonsson, Ann-Sofie

January 2009

Cyklosporin A (CsA) är en cyklisk polypeptid med molekylvikten är 1202.6 Da. Substansen har svampursprung (Tolypocladium inflatum Gams) och starka immunhämmande egenskaper. CsA används därför som immunsuppressivt läkemedel för att förhindra avstötning av transplanterade organ och benmärg, samt vid behandling av graft-versus-host-disease (transplantat-mot-värd-sjukdom). CsA har ett snävt terapeutiskt fönster, vilket betyder att skillnaden mellan effektivitet och toxicitet är liten. Biverkningarna av substansen är många och en del av dem allvarliga, såsom nedsatt njurfunktion och ökad risk för utvecklande av diabetes och maligna sjukdomar som exempelvis lymfom. Den inter- och intraindividuella variabiliteten i farmakokinetik och farmakodynamik är dessutom stor. Det är därför ytterst viktigt att följa behandlingen med koncentrationsbestämningar av CsA i helblod. Det finns ett flertal olika analysmetoder för CsA tillgängliga, såsom immunoassays, vätskekromatografi (HPLC) och vätskekromatografi-tandem-massspektrometri (LC-MS/MS). Avdelningen för klinisk kemi vid Centralsjukhuset i Karlstad har sedan många år använt en radioimmunoassay, CYCLO-Trac SP®, från DiaSorin för att bestämma CsA i helblod. Laboratoriets önskan är att ersätta denna metod, vilken använder radioaktiva isotoper, med en snabbare och mer selektiv LC-MS/MS-metod.  I detta arbete har en LC-MS/MS-metod för analys av cyklosporin A i helblod utvecklats och validerats. Metoden har snabb provupparbetning och kromatografi och använder positiv elektrospray som joniseringsteknik. Två procedurer för proteinfällning utvärderades som provupparbetningsförfarande under metodutvecklingen och två olika internstandarder testades; CsA analogen cyklosporin D och isotopmärkt CsA (d12-CsA).  Efter den fullständiga valideringen infördes metoden i rutinarbetet 2009-11-01. Resultat från både LC-MS/MS och den radioimmunologiska metoden lämnas ut parallellt under minst fem månader. / Cyclosporine A (CsA) is a cyclic undecapolypeptide of fungal origin (Tolypocladium inflatum Gams). It has a molecular weight of 1202.6 Da and is used as an immunouppressive drug to prevent rejection of transplanted organs and bone marrow, and for the treatment of graft-versus-host disease. CsA exhibits a narrow therapeutic range between efficacy and toxicity. There are many side effects exerted by the drug and some of them are serious, such as renal dysfunction and increased risk of developing diabetes and malignant diseases such as lymphoma. In addition, the inter-individual and intra-individual pharmacokinetic and pharmacodynamic variability is large. Constant monitoring of the CsA-concentration is therefore mandatory.  There are several analytical methods available for the determination of CsA, such as immunoassays, liquid chromatography (HPLC) and tandem mass spectrometry (LC-MS/MS). The department of Clinical Chemistry at the Central Hospital in Karlstad has for many years used a radioimmunoassay, the CYCLO-Trac SP® from DiaSorin, for CsA-determinations. The laboratory wants to replace this method, which uses radioactive isotopes, with a faster and more selective LC-MS/MS method.  In this work a LC-MS/MS method, utilizing positive electrospray, with a fast sample preparation and chromatography for the determination of CsA in whole blood has been developed and validated. Two protein precipitation procedures were evaluated for sample preparation during the method development and two different internal standards were tested; the CsA analog cyclosporine D (CsD) and an isotope labelled CsA (d12-CsA). The LC-MS/MS assay was fully validated and implemented in the routine work at the laboratory on November 1 2009. Results from both the CYCLO-Trac SP® method and the LC-MS/MS assay will be reported for at least five months.

Analytical chemistry

Analytisk kemi

Rational design of nanoparticles for biomedical imaging and photovoltaic applications

Qin, Haiyan

January 2011

This thesis aims to rationally design nanoparticles and promote their applications in biomedical imaging and photovoltaic cells. Quantum dots (QDs) are promising fluorescent probes for biomedical imaging. We have fabricated two types of MSA capped QDs: CdTe/ZnSe core/shell QDs synthesized via an aqueous method and CdTe QDs via a hydrothermal method. They present high quantum yields (QYs), narrow emission band widths, high photo- and pH-stability, and low cytotoxicity. QD-IgG probes were produced and applied for labeling breast cancer marker HER2 proteins on MCF-7 cells. For the purpose of single molecule tracking using QDs as fluorescent probes, we use small affibodies instead of antibodies to produce QD-affibody probes. Smaller QD-target protein complexes are obtained using a direct immunofluorescence approach. These QD-affibody probes are developed to study the dynamic motion of single HER2 proteins on A431 cell membranes. Fluorescence blinking in single QDs is harmful for dynamic tracking due to information loss. We have experimentally studied the blinking phenomenon and the mechanism behind. We have discovered an emission bunching effect that two nearby QDs tend to emit light synchronously. The long-range Coulomb potential induced by the negative charge on the QD surface is found to be the major cause for the single QD blinking and the emission bunching in QD pairs. We have studied the in vitro cytotoxicity of CdTe QDs to human umbilical vein endothelial cells (HUVECs). The QDs treatment increases the intracellular reactive oxygen species (ROS) level and disrupts the mitochondrial membrane potential. The protein expression levels indicate that the mitochondria apoptosis is the main cause of HUVCEs apoptosis induced by CdTe QDs. Gold nanorods (GNRs) are scattering probes due to their tunable surface plasmon resonance (SPR) enhanced scattering spectrum. In order to control the yield and morphology of GNRs, we have systematically studied the effects of composition and concentration in the growth solution on the quality of the GNRs produced via a seed-mediated method. The aspect ratios of GNRs were found to be linearly depended on the concentration ratio of silver ions and CTAB. The high quality GNRs obtained were adsorbed to COS-7 cell membranes for dark field imaging. We have rationally designed two types of QDs by wave function engineering so as to improve the efficiency of QD-sensitized solar cells. A reversed type-I CdS/CdSe QD confines excitons in the shell region, whereas a type-II ZnSe/CdS QD separates electrons in the shell and holes in the core. Their absorbed photon-to-current efficiencies (APCE) are as high as 40% and 60% respectively. In conclusion, rationally designed nanoparticles are proven a high potential for applications as probes in biomedical labeling, imaging and molecule tracking, and as sensitizers for photovoltaic cells. / QC 20110511

Theoretical chemistry

Teoretisk kemi

Synthesis of C(sp2)-P bonds by palladium-catalyzed reactions : Mechanistic investigations and synthetic studies

Kalek, Marcin

January 2011

This thesis focuses on synthetic and mechanistic aspects of palladium-catalyzed C(sp2)-P bond-forming reactions, with the aim to develop mild and efficient methods for the synthesis of biologically active phosphorus compounds, e.g. DNA analogs. The first part of the thesis is devoted to detailed mechanistic investigations of the palladium-catalyzed C-P cross-coupling reaction, in order to fully understand the underlying chemistry and by rational design of the reaction conditions, improve the overall efficiency of the process and broaden its applicability. In particular influence of palladium coordination by different anions on the rate of ligand substitution and reductive elimination steps of the reaction was studied. It was found that coordination of acetate ion results in unprecedented acceleration of both of the mechanistic steps, what leads to remarkable shortening of the overall reaction times. In-depth kinetic investigations enabled to ascribe the observed effects to ability of the acetate ion to act as a bidentate ligand for palladium. This causes considerable alternation of the reaction mechanism, comparing to the reaction involving halide-containing complexes, and results in significant rate increase. Based on the above mechanistic studies an efficient method for the synthesis of arylphosphonates, using substoichiometric amounts of inorganic acetate additive and reduced amount of catalyst, was developed. In the next part of the thesis, efforts to further enhance the palladium-catalyzed cross-coupling efficiency by using a microwave-assisted synthesis are described. These explorations resulted in a successful development of two protocols, one for a cross-coupling of H-phosphonates and the other for H,H-phosphinates, under the microwave heating conditions. Application of this energy source resulted in extremely short reaction times, measured in minutes. The final chapter of this thesis deals with studies on palladium-catalyzed SN2’ propargylic substitution reaction with phosphorus nucleophiles, which leads to allene products. Efficient procedure for the synthesis of allenylphosphonates and related compounds was developed. The method enables full control of stereochemistry in the allene moiety and at the asymmetric phosphorus center. Some conclusions on the mechanism of the reaction were also drawn. / At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 7: In press.

Organic chemistry

Organisk kemi

Understanding the Structure and Reaction of Single Molecules on Metal surfaces from First Principles

Fu, Qiang

January 2011

The study of surface adsorption and reaction is not only interesting from a scientific point of view, but also important in many application fields such as energy, environment, catalysis, corrosion, electronic device, and sensor. Theoretical calculations are essential in these studies. In this thesis, first principles studies for the structure and reaction of some important single molecules on the surface are presented. Dehydrogenation of single trans-2-butene molecule on a Pd(110) surface is the first example. The adsorption configurations of both reactant and produce are assigned and the whole dehydrogenation pathway is revealed. Our calculations show that the reactant, i.e. trans-2-butene molecule, undergoes a rotation before dehydrogenation occurs, which is an important detail that cannot be observed directly in scanning tunneling microscopy (STM) experiments. The dissociation and rotation processes of single oxygen molecule on a Pt(111) surface have been a subject of extensive studies in the past. A new intermediate state with a peculiar configuration is identified. The puzzled adsorption site is well explained. The calculated energy barriers agree well with experimental results for both dissociation and rotation processes. Another aspect addressed in this thesis is the mechanism of molecular electronic switches induced by molecular structural changes. By carefully examining the tautomerization process of a naphthalocyanine molecule, an intermediate state is located on the potential surface of the tautomerization. Our calculations indicate that the experimentally observed switching involves four-states, rather than the two-state as proposed by the experimentalists. In a joint experimental and theoretical study the dehydrogenation, tautomerization, and mechanical switching processes of a single melamine molecule on a Cu(100) surface have been comprehensively examined. A new dual-functional molecular device with integrated rectifying and switching functions is made for the first time. In collaborating with another experimental group, we have simulated the switching process of a single 1,1,2,3,4,5-hexaphenylsilole molecule on a Cu(111) surface. The role of the orientation of the molecule is carefully examined and a new switching mechanism is proposed. Switching processes are strongly associated with the inelastic electron tunneling. We have proposed a statistical model that allows explaining the non-integer exponent in the power-law relationship between the switching rate and tunneling current. In this model, the importance of the randomness in inelastic electron excitations and the lifetime of the immediate state are emphasized. It has shown that the inelastic electron tunneling is a collection of various n-electron processes with different statistical weight. / QC 20110524

Theoretical chemistry

Teoretisk kemi

Mechanistic photodissociation of small molecules explored by electronic structure calculation and dynamics simulation

Fang, Qiu

January 2011

QC 20110520

Theoretical chemistry

Teoretisk kemi

Structure, prediction, evolution and genome wide studies of membrane proteins

Granseth, Erik

January 2007

α-helical membrane proteins constitute 20-30% of all proteins in a cell and are involved in many essential cellular functions. The structure is only known for a few hundred of them, which makes structural models important. The most common structural model of a membrane protein is the topology which is a two-dimensional representation of the structure. This thesis is focused on three different aspects of membrane protein structure: improving structural predictions of membrane proteins, improving the level of detail of structural models and the concept of dual topology. It is possible to improve topology models of membrane proteins by including experimental information in computer predictions. This was first performed in Escherichia coli and, by using homology, it was possible to extend the results to 225 prokaryotic organisms. The improved models covered ~80% of the membrane proteins in E. coli and ~30% of other prokaryotic organisms. However, the traditional topology concept is sometimes too simple for complex membrane protein structures, which create a need for more detailed structural models. We created two new machine learning methods, one that predicts more structural features of membrane proteins and one that predicts the distance to the membrane centre for the amino acids. These methods improve the level of detail of the structural models. The final topic of this thesis is dual topology and membrane protein evolution. We have studied a class of membrane proteins that are suggested to insert either way into the membrane, i.e. have a dual topology. These protein families might explain the frequent occurrence of internal symmetry in membrane protein structures.

Theoretical chemistry

Teoretisk kemi

X-ray Spectroscopy of Molecules Driven by Strong IR Fields

Guimaraes, Freddy Fernandes

January 2006

The current thesis deals with one important branch of the physics of ultrafast processes, namely modeling of femtosecond nuclear dynamics. We suggest a new type of time resolved spectroscopy, the phase sensitive infrared-x-ray pump probe spectroscopy, which combines rich opportunities of IR laser techniques in quantum control of molecular systems with the site selectivity of x-rays. We have developed and applied a dynamical theory of x-ray pump-probe spectroscopy to study different molecular systems. Special attention is paid to design of the wave packets of desirable shape and spectral composition. Such a quantum control of the nuclear wave packet enables the study of molecular properties in regions that are unavailable by standard x-ray spectroscopies. The IR - x-ray pump probe spectroscopy is nicely suited to perform mapping of wave packet trajectories, to study revival phenomena, femtosecond chemical dynamics, and proton transfer, to mention a few examples. Our simulations show that the phase of the infrared pulse strongly influences the trajectory of the nuclear wave packet, and hence, the x-ray spectrum. Such a dependence is caused by the transfer of the phase of the IR field to the wave packet through the interference of the one (x-ray) and two-photon (IR + x-ray) excitation channels. The time resolved x-ray spectra are sensitive to the shape, duration and delay time between the pulses. The phase of the IR pulse influences the molecular dynamics also when the Rabi period becomes comparable with the period of vibrations, breaking down the rotating wave approximation. We predict a phase memory effect which is a promising technique in studies of chemical dynamics on different time scales. It is shown that the final state interaction with the pump affects the probe spectrum when the pump and probe pulses overlap. In a further step, we explore the electronic recoil effect in x-ray photoelectron spectroscopy, which has recently attracted attention of experimentalists due to its sensitivity to intramolecular interaction. We show that an IR field enhances the manifestation of the recoil effect through the formation of extensive vibrational wave packets. The theory of x-ray Raman scattering from molecules with strong spin-orbit coupling accompanied by electron-hole interaction is developed and applied to simulations of resonant x-ray Raman scattering of the HCl molecule. Special attention is paid to the theoretical methodologies to reduce the computational cost of our wave packet codes. / QC 20100825

Theoretical chemistry

Teoretisk kemi

Detection of wood decay using an electronic nose /

Nilsson, Kent,

January 1900

Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniv. / Härtill 4 uppsatser.

Virke. Analytisk kemi.