Global ETD Search

51	Does vapor pressure deficit drive the seasonality of δ 13C of the net land-atmosphere CO2 exchange across the United States? Raczka, B., Biraud, S. C., Ehleringer, J. R., Lai, C.-T., Miller, J. B., Pataki, D. E., Saleska, S. R., Torn, M. S., Vaughn, B. H., Wehr, R., Bowling, D. R. 08 1900 (has links) The seasonal pattern of the carbon isotope content (delta C-13) of atmospheric CO2 depends on local and nonlocal land-atmosphere exchange and atmospheric transport. Previous studies suggested that the delta C-13 of the net land-atmosphere CO2 flux (delta(source)) varies seasonally as stomatal conductance of plants responds to vapor pressure deficit of air (VPD). We studied the variation of (source) at seven sites across the United States representing forests, grasslands, and an urban center. Using a two-part mixing model, we calculated the seasonal delta(source) for each site after removing background influence and, when possible, removing delta C-13 variation of nonlocal sources. Compared to previous analyses, we found a reduced seasonal (March-September) variation in delta(source) at the forest sites (0.5 parts per thousand variation). We did not find a consistent seasonal relationship between VPD and delta(source) across forest (or other) sites, providing evidence that stomatal response to VPD was not the cause of the global, coherent seasonal pattern in (source). In contrast to the forest sites, grassland and urban sites had a larger seasonal variation in (source) (5) dominated by seasonal transitions in C-3/C-4 grass productivity and in fossil fuel emissions, respectively. Our findings were sensitive to the location used to account for atmospheric background variation within the mixing model method that determined (source). Special consideration should be given to background location depending on whether the intent is to understand site level dynamics or regional scale impacts of land-atmosphere exchange. The seasonal amplitude in delta C-13 of land-atmosphere CO2 exchange (delta(source)) varied across land cover types and was not driven by seasonal changes in vapor pressure deficit. The largest seasonal amplitudes of delta(source) were at grassland and urban sites, driven by changes in C-3/C-4 grass productivity and fossil fuel emissions, respectively. Mixing model approaches may incorrectly calculate delta(source) when background atmospheric observations are remote and/or prone to anthropogenic influence. stable carbon isotopes land-atmosphere exchange C3 discrimination vapor pressure deficit
52	Chiralité hélicoïdale (supra)moléculaire dans les tetrathiafulualènes / (Supra)molecular helical chirality in tetrathiafulvalene (TTF) Melan, Caroline 01 October 2015 (has links) Lors de ce travail de thèse nous nous sommes intéressés à deux thèmes principaux dans le but de fabriquer des matériaux conducteurs chiraux : la synthèse de TTF-hélicènes présentant une chiralité hélicoïdale moléculaire, ainsi que l’obtention de molécules de symétrie 3 à base de TTF ayant la capacité à former des auto-assemblages supramoléculaires hélicoïdaux. Dans la partie TTF-hélicène, plusieurs tailles d’hélicènes ont été envisagées avec pour objectif d’obtenir des énantiomères stables et séparables. Ils ont été caractérisés par diffraction de rayons X, de même que les sels obtenus par électrocristallisation. De plus, une étude théorique de la réaction de photocyclisation des stilbènes en hélicènes a été menée pour comprendre sa régiosélectivité. Les molécules de symétrie 3 sont composées d’un coeur BTA-DABP sur lequel sont fixés des TTF avec leurs substituants chiraux. L’assemblage colonnaire des molécules est étudié par CD et les fibres formées sont observées par microscopie ce qui permet de déterminer leur hélicité. On varie le cœur ainsi que les groupements fixés dessus. / In this work, we have been interested in two different topics to make chiral conducting materials: the synthesis of TTF-helicenes, with molecular helical chirality, as well as the formation of three-fold symmetry molecules based on TTF units able to self-assemble into supramolecular helical aggregates. For the TTF-helicenes, several lengths of helicenes are considered in order to form stable and separable enantiomers. They are characterized by X-ray diffraction just as the salts that are obtained by electrocrystallization. Moreover, a theoretical study of the photocyclisation reaction of stilbenes into helicenes was performed to understand its regioselectivity. The three-fold symmetry molecules are composed of a BTA-DABP core on which TTF with chiral substituents are fixed. The assembly into columnar aggregates is followed by CD and the fibers formed are observed by microscopy in order to determine their helicity. Variation of the core and the substituents are made. Chiralité hélicoïdale Matériaux conducteurs Symétrie C3 Helical chirality Conducting materials Three-Fold 540
53	Adaptivní plánování trajektorie průmyslového robotu / Adaptive Planning of Industrial Robot Trajectory Dizorzi, Matúš January 2019 (has links) This thesis deals with the extension of the RoScan scanning system features, making its behaviour more secure and adaptivte during scanning of the object on its whole trajectory. This work contains mathematical model of said manipulator, suggested methods to ensure proper behaviour during singularities. New features were added to the RoScan system such as control panel for manipulator control including new format of trajectory log, moving closer or further away from manipulator’s end effector and non adaptive trajectory testing for singularities. Result of this work is ready-to-use.
54	A Synthetic Lethal shRNA Screen and Genetic Proof of Concept Identifies RAC1 as a Novel Target to Disrupt Plexiform Neurofibroma Formation Mund, Julie Ann 12 1900 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Neurofibromatosis Type 1 (NF1) is a highly penetrant autosomal dominant genetic disorder where mutations in the tumor suppressor gene NF1 leads to decreased neurofibromin. The most debilitating manifestation is the presence of complex multilineage Schwann cell-derived plexiform neurofibromas (PN). Historically, little clinical success has been achieved targeting PN through surgery or chemotherapies. I performed an shRNA library screen of patient-derived Schwann cell lines to identify novel therapeutic targets to disrupt PN formation and progression. An shRNA library screen of human kinases and Rho-GTPases was performed in NF1-/- and paired NF1 competent immortalized Schwann cell lines. Following sequencing, candidates were identified. We previously developed a novel mouse model of NF1 wherein a neural crest specific Postncre targeted loxp-flanked Nf1 that replicated the PN found in patients. Additional cohorts of mice were generated with biallelic deletion of Rac1 (Nf1f/fRac1f/f Postn-Cre+; DKO ). Mice were aged for 9 months and peripheral nerves were harvested and fixed in formalin. Peripheral nerve size was measured and tumors were identified through blinded analysis of hematoxylin and eosin and Masson’s Trichrome (collagen) stained slides. Rho family members, including RAC1, were identified as candidates through an shRNA library screen. Genetic disruption of Rac1 in the Schwann cell lineage resulted in the prevention of tumor formation in DKO mice, as observed by peripheral nerve size and histological analysis. I observed an average of 14.8 +/- 2.65 tumors per mouse in the Nf1f/f Postnviii Cre+ cohort compared to 0 tumors in the DKO (p<0.0001). Following an shRNA library screen, RAC1 was identified as a candidate to modulate PN formation. Biallelic deletion of Rac1 in vivo prevented PN formation. I demonstrate that a candidate identified in an shRNA library screen can translate to an biological effect in a mouse model of PN. genetically engineered mouse model neurofibromatosis type 1
55	Digestibility of Different Multi-Species Native Warm-Season Grass Mixtures Grown in Varied Harvest Regimen Ogunlade, Janet Moromoke 11 May 2013 (has links) Study was conducted to evaluate in vitro digestibility of native warm-season grasses. Three grasses were used: big bluestem (Andropogon gerardii Vitman), little bluestem (Schizachyrium scoparium Nash), and indiangrass (Sorghastrum nutans Nash). There were no differences in NDF, ADF, FAT and OM of the three grass species. However, DM, hemicellulose and CP were slightly different in the three grass species. Also, the frequency nested in cutting effects was determined. In vitro dry matter disappearance of big bluestem, little bluestem and indiangrass was evaluated to determine rate of disappearance. The 100 % indiangrass revealed the greatest rate of disappearance for IVDMD and 100 % little bluestem grass the least, respectively. However, that of other proportion mixtures of treatments and 100 % big bluestem grass were in between. There were no differences in in vitro neutral detergent fiber disappearances among treatments. In vitro dry matter disappearances C3 and C4 grasses warm season grasses Regrowth interval Cell Wall Contents.
56	Independent Generation and Investigation of the C3'-deoxy-3'-thymidinyl Radical: A Proposed Intermediate in DNA-LEE Interactions Abdallah, Buthina A. 28 December 2011 (has links) No description available. Chemistry Oxidative DNA Damage DNA-LEE Interactions C3'-dideoxythymidinyl Radical
57	Mechanisms of Transdifferentiation and Regeneration Madhavan, Mayur C. 02 December 2005 (has links) No description available. Biology, Cell Regeneration Transdifferentiation Chick Newt Pax6 Mitf FGF FGFR Complement C3 C5
58	Induction powered percolator omerovic, Semir January 2022 (has links) This project was a collaboration with C3 Scandinavian Lifestyle to create an induction percolator. Certain points had to be considered and explored. How can the copper coil be used in the percolator, and how can the new technology be turned off at the specified temperature?The report will begin with a theoretical foundation. This will include the type of study contained in this report. Every step made during the project will be explained in the procedure. The approach and implementation section will discuss how the work was done, as well as what methods were employed to get the outcomes. Last but not least, it concludes with conclusions and debate. Industrial design induction percolator Concept exploration C3 Scandinavian Lifestyle product development Applied Mechanics Teknisk mekanik
59	Electrochemical Oxidation of Glycerol on Bimetallic PtCu/C in Alkaline Medium and Tuning the Product Selectivity to C3 Products Yelekli Kirici, Ecem January 2025 (has links) For more than a decade, since 2009, biodiesel production has led to excessive production of its by-product, glycerol, consequently decreasing its market value and creating waste issues for the biodiesel industry. Valorization of glycerol is a promising strategy to enhance the sustainability of the biodiesel industry. Electrochemical oxidation of glycerol stands out among the other methods (i.e., hydrogenolysis, dehydration, and catalytic oxidation) due to its simplicity, eco-friendliness, and cost-effectiveness. Glycerol electrooxidation reaction has a wide range of products including C3 (i.e., glyceric acid), C2 (i.e., glycolic acid) and C1 (i.e., formic acid) products, and a complex reaction pathway. Moreover, some of the products spontaneously convert to each other or form decomposition products in the strong alkaline medium, making the product analysis challenging. Therefore, this thesis started by establishing a foundation for the quantitative technical analysis method of glycerol electrooxidation products. Proton Nuclear Magnetic Resonance (H-NMR) was developed as an alternative to High-Performance Liquid Chromatography (HPLC) by providing the capability to assess the products in their medium and detect the chemical conversions in alkaline medium. Additionally, H-NMR is a highly sensitive technique with a low detection limit of 0.01mM for the GOR product, and its accuracy was confirmed with less than 8% error by using a sample product mixture with known concentrations. Most importantly, the proposed chemical pathways were determined by using H-NMR, assisting in a deeper understanding of the glycerol electrooxidation mechanism in an alkaline medium. Subsequently, this thesis explores an efficient catalyst for the glycerol electrooxidation reaction since the state-of-the-art catalysts developed for the glycerol electrooxidation reaction mostly include noble metals hindering their commercialization due to their high price and low stability resulting from susceptibility to CO poisoning. Specifically, catalysts that can hinder the C-C cleavage provide more economic advantages since C3 products have higher market prices than the C2 and C1 products. Thus, the primary aim of this thesis is to develop a cost-effective catalyst with high selectivity towards C3 products, by demonstrating high activity, and stability to make the glycerol electrooxidation reaction economically feasible. This thesis uses the catalyst development strategy of alloying the noble metal with the transition metal, where Pt and Cu were chosen, respectively. PtxCu100-x/C bimetallic alloy catalysts were prepared using the chemical reduction method. The effect of Pt:Cu ratio on the electrochemical performance was studied by using a three-electrode cell in an alkaline medium, revealing the Pt31Cu69/C as the best-performing catalyst with the highest Pt-mass normalized current density (5.9 mA μgPt-1), highest geometrical current density (75.3 mA cm-2), and low onset potential (~0.38V vs RHE) among Pt/C and other PtxCu100-x/C catalysts. Conducting parametric studies on the electrolyte concentrations and applied potential, the C3 selectivity of Pt31Cu69/C catalyst demonstrated the highest selectivity to GLY (75 %) and C3 (86 %) after 10 h chronoamperometry at optimal conditions. Subsequently, the impact of the metal oxide effect on the Pt-based catalyst, PtCu/C-CeO2, and Pt/C-CeO2 were prepared using the ball milling method. The CeO2 impact on the selectivity towards C3 products was investigated. PtCu/C-CeO2 showed the highest selectivity and concentration for C3 products compared to Pt/C-CeO2, Pt/C and PtCu/C. Additionally, temperature impact on the performance towards glycerol electrooxidation reaction was studied, revealing temperature increase further increases the selectivity and concentration for C3 products (90%, and 18.4 mM). All the catalysts prepared in this thesis were characterized physically using analytical techniques of transmission electron microscopy (TEM), scanning electron microscopy (SEM), X-ray diffraction (XRD), and inductively coupled plasma optical emission spectroscopy (ICP-OES). / Thesis / Doctor of Philosophy (PhD) / Fossil fuels need to be replaced by clean alternatives due to sustainability concerns. Consequently, as a renewable energy source, biodiesel production has been booming since 2009, producing large amounts of glycerol as a side-product. This overproduction devalorizes glycerol, creating a disposal problem for the biodiesel industry. Electrochemical valorization is a sustainable approach to upgrade glycerol into useful compounds such as glyceric acid and tartronic acid that have medical, food and cosmetic applications. However, glycerol electrooxidation reaction (GOR) has a complex reaction pathway with a wide range of products that can be converted to each other spontaneously in an alkaline medium, making it challenging to fully understand the GOR mechanism, thereby negatively impacts GOR catalyst development. This thesis develops the proton nuclear magnetic resonance method for quantitative analysis of GOR products, highlights the chemical reaction pathways in alkaline electrolyte, and develops PtCu/C and PtCu/C-CeO2 catalysts as selective GOR catalysts towards the valuable C3 products. Glycerol Electrooxidation H-NMR for Product Analysis Catalyst Development C3 Product Selectivity
60	Calculs de dynamique inélastique pour des collisions moléculaires d'intérêt astrochimique / Quantum molecular collision studies for processes of astrophysical interest Denis alpizar, Otoniel 01 April 2014 (has links) L'analyse des conditions physico-chimiques régnant dans le milieu interstellaire(ISM) nécessité de connaître les constantes de vitesse de collision inélastique qui ont lieu plus fréquemment dans l'ISM. Nous avons à cettefin calculées les surfaces d'énergie potentielles ainsi que les états liés descomplexes CS-H2, HCN-H2, HCN-He et C3-He. Nous avons déterminé pour la collision CS-H2 les sections efficaces et les taux d'excitation collisionnels pour les premiers niveaux rotationnels. Des observations récentes suggérentque l'excitation des modes de pliage des molécules triatomiques doit êtreprise en compte dans les modèles astrochimiques. Nous présentons doncdeux nouvelles approches théoriques permettant d'effectuer un traitementClose Coupling des collisions inélastiques d'un atome avec une molécule triatomique. Le couplage entre les mouvements de rotation et de pliage de la molécule est traité soit exactement dans le cadre de l'approximation du rigid bender (RBCC) ou de façon approximée en moyennant le potentiel d'interaction atome-molècule sur le mode de pliage de la molécule (RBAA). La méthode RBCC est appliquée à l'étude des collisions HCN-He et C3-He pour lesquelles les sections efficaces de transition entre niveaux rotationnels appartenant à des modes de pliage différents sont obtenues. Les résultats sont comparés avec ceux fournis par l'opproximation du rotateur rigide linéaire. Dans le cas de la collision HCN-He ils sont aussi comparés avec ceux obtenus en utilisant l'approche RBAA. Nous montrons que les sections efficaces de transitions entre des niveaux rotationels appartenant à des niveaux de bending différents doivent être calculées au niveau RBCC. / Tha analysis of the physico-chemical conditons taking place in the interstellar medium (ISM) requires to know the inclastic rate coefficents of the detected interstellar molecules in collisions with the moste common colliders int the ISM. We have comuted the four dimensional potential energy surfaces, and the bound levels for the CS-H2, HCN-H2, HCN-He and C3 -He complexes. For the collisions of Cs with H2, we also determined the rst inelastic cross section and rate coefficeients<; Several recent observations suggest that the vibrational excitation of triatomic molecules in the ISM at least in the bending motion needs to be considered in the collision mechanismes. We present a nex theorical method to treat atom-rigid bender ineslastic collisions at close the coupling level (RBCC). The coupling between rotation and bending is treated exactly within the rigid bender approximation and we obtain the cross section for the rotational transition between levels belonging to dierent bending levels. This approach is applied to the study of HCN-He and C3-He. The results are compared with those obtained whenconsidering the molecules to be linear rigid rotors. In the case of HCN-He,they are also compared with the cross sections determined using the interactionpotential averaged over the bending wavefunction. We demonstratethat the cross sections involving vibrational transitions should be computedusing the RBCC method. For HCN-He, the linear rigid approach is foundto offer a good description of pure rotational transitions while for C3-Hethis method is shown to overestimate the cross section for collision energieshigher than the first excited bending threshold. Surface d'énergie potentielle Dynamique quantique inélastique Calcules d'états liés Couplage pliage-rotation CS-H2 HCN-H2 HCN-He C3-He Potential energy surface Inclastic quantum dynamic Bound states Bending-rotation coupling CS-H2 HCN-H2 HCN-He C3-He

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