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51	Atomistic Simulations of Bonding, Thermodynamics, and Surface Passivation in Nanoscale Solid Propellant Materials Williams, Kristen 2012 August 1900 (has links) Engineering new solid propellant materials requires optimization of several factors, to include energy density, burn rate, sensitivity, and environmental impact. Equally important is the need for materials that will maintain their mechanical properties and thermal stability during long periods of storage. The nanoscale materials considered in this dissertation are proposed metal additives that may enhance energy density and improve combustion in a composite rocket motor. Density Functional Theory methods are used to determine cluster geometries, bond strengths, and energy densities. The ground-state geometries and electron affinities (EAs) for MnxO?: x = 3, 4, y = 1, 2 clusters were calculated with GGA, and estimates for the vertical detachment energies compare well with experimental results. It was found that the presence of oxygen influences the overall cluster moment and spin configuration, stabilizing ferrimagnetic and antiferromagnetic isomers. The calculated EAs range from 1.29-1.84 eV, which is considerably lower than the 3.0-5.0 eV EAs characteristic of current propellant oxidizers. Their use as solid propellant additives is limited. The structures and bonding of a range of Al-cyclopentadienyl cluster compounds were studied with multilayer quantum mechanics/molecular mechanics (QM:MM) methods. The organometallic Al-ligand bonds are generally 55-85 kcal/mol and are much stronger than Al-Al interactions. This suggests that thermal decomposition in these clusters will proceed via the loss of surface metal-ligand units. The energy density of the large clusters is calculated to be nearly 60% that of pure aluminum. These organometallic cluster systems may provide a route to extremely rapid Al combustion in solid rocket motors. Lastly, the properties of COOH-terminated passivating agents were modeled with the GPW method. It is confirmed that fluorinated polymers bind to both Al(111) and Al(100) at two Al surface sites. The oligomers HCOOH, CH3CH2COOH, and CF3CF2COOH chemisorb onto Al(111) with adsorption energies of 10-45 kcal/mol. The preferred contact angle for the organic chains is 65-85 degrees, and adsorption energy weakens slightly with increasing chain length. Despite their relatively weak adsorption energies, fluorinated polymers have elevated melting temperatures, making them good passivation materials for micron-scale Al fuel particles. materials science solid propellants organometallics ab initio calculations antiferromagnetic materials ferrimagnetic materials ground states isomerisation magnetic moments magnetic structure manganese compounds molecular clusters photoelectron spectra chemisorption dispersion interactions carboxylates surface passivation thermodynamics density functional theory
52	Phosphorus benefits of white lupin, field pea and faba bean to wheat production in Western Australian soils Nuruzzaman, Mohammad January 2005 (has links) [Truncated abstract] Soils of Western Australian cropping regions are very low in phosphorous. White lupin, chickpea, and faba bean are being increasingly used in rotations with wheat on these soils. Yield of wheat after a legume crop is frequently higher than its yield after wheat. It has been reported that in addition to nitrogen, legumes can also contribute to improve the availability of phosphorous for the subsequent crops. This PhD research project aimed at optimising the economic returns of wheat-legume rotations through more efficient use of P fertiliser in the legume phase as well as enhanced availability of soil P in the subsequent wheat phase Lupines -- Western Australia Peas -- Western Australia Fava bean -- Western Australia Wheat -- Soils -- Western Australia Fallow land plants -- Western Australia Carboxylates Field pea Rhizosphere White lupin
53	Modification de surfaces de téflon et de SiO2 par adsorption de complexes de cuivre(II)- carboxylates perfluorés / Élaboration de surfaces auto-adaptatives, hydrophiles et coordinantes appliquées à la préparation de couches minces de porphyrines Motreff-Zeisser, Artur 21 October 2010 (has links) Le développement de méthodologies permettant de fonctionnaliser aisément les surfaces est un domaine en plein essor. Nous avons synthétisé et caractérisé de nouveaux complexes de cuivre(II)-carboxylates hautement fluorophiles qui ont été utilisés pour modifier des surfaces. Ces complexes possèdent à l'état solide une très grande affinité pour l'eau, l'hydratation induisant un changement radical des propriétés magnétiques du solide. Ces complexes fluorophiles s'adsorbent très fortement sur le Téflon ou sur le verre pour conduire à des surfaces hydrophiles et coordinantes. En utilisant la chimie de coordination, les surfaces ont ensuite été fonctionnalisées. Des monocouches et des couches minces de porphyrines ont été obtenues sur le verre et sur le téflon puis caractérisées, notamment grâce à leurs propriétés optiques. / The development of methodologies to easily functionalize surfaces is a fast growing field. We have synthesized and characterized new highly fluorophilic copper(II)-carboxylate complexes that have been employed to modify surfaces. In the solid state, these complexes exhibit a high affinity for water, the hydration process inducing dramatic modifications of their magnetic properties. These fluorophilic complexes are strongly adsorbed on teflon or glass to afford hydrophilic and coordinating surfaces. Using coordination chemistry, the surfaces can than be functionalized. Porphyrins monolayers and thin layers have been prepared on glass and teflon and characterized, in particular by their optical properties. Modification de surfaces SiO2 Surface auto-adaptative Monocouche de porphyrine Chimie de coordination Éponge magnétique Fluoreux Adsorption Téflon Complexe de cuivre(II)-carboxylates Surface modification Porphyrin monolayer Fluorous Teflon SiO2 Coordination chemistry Adsorption Copper(II)-carboxylate complexe Self-adaptative surface Magnetic sponge
54	Cobalt and manganese carboxylates for metal oxide thin film deposition by applying the atmospheric pressure combustion chemical vapour deposition process Kretzschmar, B. S. M., Assim, K., Preuß, Andrea, Heft, A., Korb, Marcus, Pügner, Marc, Lampke, Thomas, Grünler, B., Lang, Heinrich 11 June 2018 (has links) Coordination complexes [M(O2CCH2OC2H4OMe)2] (M = Co, 4; M = Mn, 5) are accessible by the anion exchange reaction between the corresponding metal acetates [M(OAc)2(H2O)4] (M = Co, 1; M = Mn, 2) and the carboxylic acid HO2CCH2OC2H4OMe (3). IR spectroscopy confirms the chelating or μ-bridging binding mode of the carboxylato ligands to M(II). The molecular structure of 5 in the solid state confirms a distorted octahedral arrangement at Mn(II), setup by the two carboxylato ligands including their α-ether oxygen atoms, resulting in an overall two-dimensional coordination network. The thermal decomposition behavior of 4 and 5 was studied by TG-MS, revealing that decarboxylation occurs initially giving [M(CH2OC2H4OMe)2], which further decomposes by M–C, C–O and C–C bond cleavages. Complexes 4 and 5 were used as CCVD (combustion chemical vapour deposition) precursors for the deposition of Co3O4, crystalline Mn3O4 and amorphous Mn2O3 thin films on silicon and glass substrates. The deposition experiments were carried out using three different precursor solutions (0.4, 0.6 and 0.8 M) at 400 °C. Depending on the precursor concentration, particulated layers were obtained as evidenced by SEM. The layer thicknesses range from 32 to 170 nm. The rms roughness of the respective films was determined by AFM, displaying that the higher the precursor concentration, the rougher the Co3O4 surface is (17.4–43.8 nm), while the manganese oxide films are almost similar (6.2–9.8 nm). info:eu-repo/classification/ddc/546 ddc:546
55	Bismuth(III) benzohydroxamates: powerful anti-bacterial activity against Helicobacter pylori and hydrolysis to a unique Bi34 oxido-cluster [Bi34O22(BHA)22(H-BHA)14(DMSO)6] Pathak, Amita, Blair, Victoria L., Ferrero, Richard L., Mehring, Michael, Andrews, Philip C. 13 March 2015 (has links) Reaction of BiPh3 or Bi(OtBu)3 with benzohydroxamic acid (H2-BHA) results in formation of novel mono- and di-anionic hydroxamato complexes; [Bi2(BHA)3]∞1, [Bi(H-BHA)3] 2, [Bi(BHA)(H-BHA)] 3, all of which display nM activity against Helicobacter pylori. Subsequent dissolution of [Bi2(BHA)3]∞ in DMSO/toluene results in hydrolysis to the first structurally authenticated {Bi34} oxido-cluster [Bi34O22(BHA)22(H-BHA)14(DMSO)6] 4. / Dieser Beitrag ist aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. info:eu-repo/classification/ddc/530 ddc:530
56	Complexos de dirutênio com os fármacos ibuprofeno, ácido acetilsalicílico, naproxeno, indometacina, e com ácido y-linolêncio: Síntese, caracterização, avaliação da ação antiproliferativa sobre células tumorais e estudo da interação da unidade dimetálica com adenina e adenosina / Diruthenium complexes with ibuprofen drugs, acetylsalicylic acid, naproxen, indomethacin and y-linolenic acid: synthesis, characterization and evaluation of antiproliferative action in tumor cells and study of interaction dimetalic interaction unit with adenine and adenosine Ribeiro, Geise 20 April 2006 (has links) Este trabalho tem como principal objetivo contribuir para o desenvolvimento de novos potenciais metalofármacos de rutênio. Nele são descritas a síntese, a caracterização e a avaliação da ação antiproliferativa de alguns complexos de dirutênio (II,III) com os fármacos antiinflamatórios não-esteróides (AINEs): ibuprofeno (ibp), ácido acetilsalicílico (aas), naproxeno (npx) e indometacina (ind) e também com o ácido γ-linolênico (lin), sobre células cancerígenas. Os compostos obtidos foram caracterizados por análise elementar, espectroscopia de absorção eletrônica, medidas de susceptibilidade magnética, espectroscopia vibracional FTIR e Raman, difratometria de raios X de pó, medidas de condutividade molar e análise térmica (TG, OTAe OSC). Todos os complexos sintetizados apresentam estrutura em gaiola, com os carboxilatos derivados dos fármacos AINEs coordenados à unidade dimetálica Ru2( (II,III), em ponte equatorial, estabilizando assim a ligação direta rutênio-rutênio. As posições axiais são ocupadas por íons cloreto, no caso dos complexos [Ru2(O2(CR)4(Cl] (O2(CR = ibp, aas, npx ou ind), ou por moléculas de água, nas espécies do tipo [Ru2(O2(CR)4(H2O)2]PF6(O2CR =npx e ind). Ensaios biológicos demonstraram que os compostos [Ru2(ibp) 4Cl]•½H2O e [Ru2(npx)4(H2O)2]PF6 apresentam ação antiproliferativa sobre células de glioma de rato C6 in vitro, dependendo do tempo de exposição do meio celular ao complexo. O complexo [Ru2 (lin)4Cl] também apresenta efeito sobre a proliferação de células C6; entretanto, nesse caso, efeitos significativos são observaçlos já nas primeiras 24 h de exposição. Estudos mostraram que as bases adenina e adenosina reagem com o complexo [Ru2(OAc)4(H2O)2]PF6 sem que ocorra quebra da estrutura em gaiola. As bases nitrogenadas substituem axialmente as moléculas de água, formando pontes axiais entre duas unidades de dirutênio (II,III) no estado sólido. / The main objective of this work is to make a contribution to the development of new ruthenium metallodrugs. Synthesis, characterization and evaluation of antiproliferative action in tumor cells of some diruthenium(II,III) complexes with Nonsteroidal Anti-inflammatory Drugs (NSAIDs) such as ibuprofen, acetylsalicylic acid, naproxen, indomethacin and also γ-linolenic acid are described. The obtained compounds were characterized by elemental analysis, electronic absorption spectroscopy, magnetic susceptibility, FTIR and Raman vibrational spectroscopy, x-ray powder diffraction, molar conductivity and thermal analysis (TG, DTA and DSC). All complexes exhibit a paddlewheel structure with the NSAID carboxylates coordinated to the metal ions bridging two Ru2(II,III) dimetal units and stabilizing the ruthenium-ruthenium bound. The axial positions are occupied by chloride ions for [Ru2(O2CR)4Cl] (O2CR = ibp, aas, npx, ind), or by water molecules for [Ru4(O2CR) 4(H2O) 2]PF6(O2CR = npx, ind) complexes. Biologic assays in vitro show that antiproliferative action in C6 rat cells depends on the time of exposing the cell culture to [Ru2(ibp)4Cl]•½H2O and [Ru2 (npx)4(H2O)2]PF6 complexes. The [Ru2(1in)4Cl] compound also exhibits proliferative changes in C6 rat cells, however, significant results are observed for the first 24 hours of treatment. Some results show that adenine and adenosine bases can react with [Ru2(OAc)4(H2O)2]PF6 without breakage of the cage structure. The bases substitute the axial water molecules forming axial bridges between diruthenium units in the solid state. Carboxilatos de dirutênio Carboxylates of dirutênio Fármacos inorgânicos (Desenvolvimento) Inorganic drugs (Development) Ligação metal-metal Metal-metal bridging Nonsteroidal anti-inflammatory drugs Proliferação de células tumorais Proliferation of tumor cells Rutênio (Farmacologia) Ruthenium (Pharmacology)
57	Complexos de dirutênio com os fármacos ibuprofeno, ácido acetilsalicílico, naproxeno, indometacina, e com ácido y-linolêncio: Síntese, caracterização, avaliação da ação antiproliferativa sobre células tumorais e estudo da interação da unidade dimetálica com adenina e adenosina / Diruthenium complexes with ibuprofen drugs, acetylsalicylic acid, naproxen, indomethacin and y-linolenic acid: synthesis, characterization and evaluation of antiproliferative action in tumor cells and study of interaction dimetalic interaction unit with adenine and adenosine Geise Ribeiro 20 April 2006 (has links) Este trabalho tem como principal objetivo contribuir para o desenvolvimento de novos potenciais metalofármacos de rutênio. Nele são descritas a síntese, a caracterização e a avaliação da ação antiproliferativa de alguns complexos de dirutênio (II,III) com os fármacos antiinflamatórios não-esteróides (AINEs): ibuprofeno (ibp), ácido acetilsalicílico (aas), naproxeno (npx) e indometacina (ind) e também com o ácido γ-linolênico (lin), sobre células cancerígenas. Os compostos obtidos foram caracterizados por análise elementar, espectroscopia de absorção eletrônica, medidas de susceptibilidade magnética, espectroscopia vibracional FTIR e Raman, difratometria de raios X de pó, medidas de condutividade molar e análise térmica (TG, OTAe OSC). Todos os complexos sintetizados apresentam estrutura em gaiola, com os carboxilatos derivados dos fármacos AINEs coordenados à unidade dimetálica Ru2( (II,III), em ponte equatorial, estabilizando assim a ligação direta rutênio-rutênio. As posições axiais são ocupadas por íons cloreto, no caso dos complexos [Ru2(O2(CR)4(Cl] (O2(CR = ibp, aas, npx ou ind), ou por moléculas de água, nas espécies do tipo [Ru2(O2(CR)4(H2O)2]PF6(O2CR =npx e ind). Ensaios biológicos demonstraram que os compostos [Ru2(ibp) 4Cl]•½H2O e [Ru2(npx)4(H2O)2]PF6 apresentam ação antiproliferativa sobre células de glioma de rato C6 in vitro, dependendo do tempo de exposição do meio celular ao complexo. O complexo [Ru2 (lin)4Cl] também apresenta efeito sobre a proliferação de células C6; entretanto, nesse caso, efeitos significativos são observaçlos já nas primeiras 24 h de exposição. Estudos mostraram que as bases adenina e adenosina reagem com o complexo [Ru2(OAc)4(H2O)2]PF6 sem que ocorra quebra da estrutura em gaiola. As bases nitrogenadas substituem axialmente as moléculas de água, formando pontes axiais entre duas unidades de dirutênio (II,III) no estado sólido. / The main objective of this work is to make a contribution to the development of new ruthenium metallodrugs. Synthesis, characterization and evaluation of antiproliferative action in tumor cells of some diruthenium(II,III) complexes with Nonsteroidal Anti-inflammatory Drugs (NSAIDs) such as ibuprofen, acetylsalicylic acid, naproxen, indomethacin and also γ-linolenic acid are described. The obtained compounds were characterized by elemental analysis, electronic absorption spectroscopy, magnetic susceptibility, FTIR and Raman vibrational spectroscopy, x-ray powder diffraction, molar conductivity and thermal analysis (TG, DTA and DSC). All complexes exhibit a paddlewheel structure with the NSAID carboxylates coordinated to the metal ions bridging two Ru2(II,III) dimetal units and stabilizing the ruthenium-ruthenium bound. The axial positions are occupied by chloride ions for [Ru2(O2CR)4Cl] (O2CR = ibp, aas, npx, ind), or by water molecules for [Ru4(O2CR) 4(H2O) 2]PF6(O2CR = npx, ind) complexes. Biologic assays in vitro show that antiproliferative action in C6 rat cells depends on the time of exposing the cell culture to [Ru2(ibp)4Cl]•½H2O and [Ru2 (npx)4(H2O)2]PF6 complexes. The [Ru2(1in)4Cl] compound also exhibits proliferative changes in C6 rat cells, however, significant results are observed for the first 24 hours of treatment. Some results show that adenine and adenosine bases can react with [Ru2(OAc)4(H2O)2]PF6 without breakage of the cage structure. The bases substitute the axial water molecules forming axial bridges between diruthenium units in the solid state. Carboxilatos de dirutênio Fármacos inorgânicos (Desenvolvimento) Ligação metal-metal Proliferação de células tumorais Rutênio (Farmacologia) Carboxylates of dirutênio Inorganic drugs (Development) Metal-metal bridging Nonsteroidal anti-inflammatory drugs Proliferation of tumor cells Ruthenium (Pharmacology)
58	Σύνθεση, δομικός χαρακτηρισμός, φασματοσκοπικές και μαγνητικές μελέτες πολυπυρηνικών ομομεταλλικών 3d και ετερομεταλλικών 3d-4f συμπλόκων / Synthesis, structural characterization, spectroscopic and magnetic studies of polynuclear 3d homometallic and 3d-4f heterometallic complexes Γεωργοπούλου, Αναστασία 15 February 2012 (has links) Με σκοπό τη μελέτη της χημείας ένταξης του υποκαταστάτη δι-2,6-(2-πυριδυλοκαρβονυλο) πυριδίνη (dpcp) με μέταλλα μετάπτωσης 3d, παρασκευάστηκαν οι τετραπυρηνικές πλειάδες [Cu4(N3)2{pyCO(OMe)pyCO(OMe)py}2(MeOH)2](ClO4)∙2MeOH (1∙2MeOH) και [Co4(N3)2(NO3)2{pyCO(OMe)pyCO(OMe)py}2]∙0.5MeOH (2∙0.5MeOH), η εξαπυρηνική πλειάδα [Ni6(CO3)(N3)6{pyCOpyC(O)(OMe)py}3(MeOH)2(H2O)][Ni6(CO3)(N3)6 {pyCOpyC(O)(OMe)py}3(MeOH)3](ClO4)2 (3∙1.8MeOH) και η διπυρηνική πλειάδα [Fe2{pyCO(OMe)py(Η)CO(OMe)py}2(MeO)2](ClO4)2∙(4∙MeOH). Στην συνέχεια μελετήθηκε η χημεία ένταξης του ίδιου υποκαταστάτη με μέταλλα 3d και 4f και παρασκευάστηκαν τα ετερομεταλλικά διπυρηνικά σύμπλοκα [ΜIILnIII{pyCOH(OEt)pyCOH(OEt)py}3](ClO4)2∙EtOH (5-16∙EtOH) με ΜΙΙ = CuΙΙ, CoΙΙ, NiΙΙ, ZnΙΙ, MnΙΙ, FeΙΙ [LnΙΙΙ = GdΙΙΙ (5 - 10), TbΙΙΙ (11 – 16) αντίστοιχα]. Όλα τα σύμπλοκα χαρακτηρίστηκαν κρυσταλλογραφικά, τα σύμπλοκα 4, 10 και 16 χαρακτηρίστηκαν με φασματοσκοπία Mössbauer ενώ τα σύμπλοκα 1 – 10 χαρακτηρίστηκαν μαγνητικά. Πιο συγκεκριμένα, οι μαγνητικές μελέτες των συμπλόκων 1 – 3, 5 και 10 έδειξαν σιδηρομαγνητικές αλληλεπιδράσεις ενώ εκείνες των συμπλόκων 4, 6, 7 και 9 έδειξαν αντισιδηρομαγνητικές αλληλεπιδράσεις. Προκειμένου να μελετηθεί σε βάθος η οικογένεια των βασικών καρβοξυλικών αλάτων του σιδήρου [Fe3O(O2CR)6(H2O)3]A, παρασκευάστηκαν δύο σειρές αυτών των συμπλόκων με R = CCl3, CHBr2, CH2F, CH2Cl, C(OH)Ph2, H, Ph, (CH2)3Cl, Me, CHMe2, Et και CMe3. Στην πρώτη σειρά συμπλόκων (17 - 28) το αντισταθμιστικό ιόν (Α) είναι ClO4-, ενώ στη δεύτερη (29 - 40) είναι NO3-. Η προσπάθεια απομόνωσης του ανάλογου με R = CF3 ήταν άκαρπη και για τα δύο αντισταθμιστικά ιόντα και οδήγησε σε ένα τετραπυρηνικό σύμπλοκο [Fe4O2(O2CCF3)8(H2O)6] (41) με δομή τύπου «πεταλούδας». Πραγματοποιήθηκαν μετρήσεις Mössbauer σε στερεά δείγματα και για τις δύο σειρές και οι ισομερείς μετατοπίσεις και οι τετραπολικές αλληλεπιδράσεις διαφέρουν μεταξύ 0.51 – 0.54 mms-1 και 0.36 – 0.76 mms-1 αντίστοιχα. Μετρήσεις Mössbauer και σε διαλύματα αυτών έδειξαν τη σταθερότητά τους και σε διάλυμα, με εξαίρεση το σύμπλοκο 29 (R = Cl3C, Α = NO3-) που οδήγησε σε σύμπλοκο τύπου «πεταλούδας». Το υψηλής συμμετρίας σύμπλοκο [Fe3O(O2CPh)6(py)3](ClO4)∙py (42) έχει μελετηθεί στο παρελθόν κρυσταλλογραφικά αλλά και με μετρήσεις ανελαστικής σκέδασης νετρονίων IINS και είχε προταθεί ύπαρξη του μαγνητικού φαινομένου Jahn-Teller σε πολύ χαμηλές θερμοκρασίες. Θέλοντας να εξακριβωθεί εάν η μαγνητική συμμετρία σχετίζεται με την πραγματική, πραγματοποιήθηκαν κρυσταλλογραφικές μετρήσεις μεταβλητής θερμοκρασίας στο εργαστήριο ΒΜ01Α του ESRF. Τα αποτελέσματα των πειραματικών μετρήσεων έδειξαν ότι η πραγματική συμμετρία παραμένει ίδια. Στη συνέχεια από μετρήσεις μαγνητικής επιδεκτικότητας ac, παρατηρήθηκε η ύπαρξη μαγνητικών φαινομένων χαλάρωσης υπό την επίδραση ασθενών μαγνητικών πεδίων. / Seeking to study the coordination chemistry of the ligand di-2, 6-(2-pyridylcarbonyl) pyridine (dpcp) with 3d transition metal ions, the tetranuclear complexes [Cu4(N3)2{pyCO(OMe)pyCO(OMe)py}2(MeOH)2](ClO4)∙2MeOH (1∙2MeOH) and [Co4(N3)2(NO3)2{pyCO(OMe)pyCO(OMe)py}2]∙0.5MeOH (2∙0.5MeOH), the hexanuclear complex [Ni6(CO3)(N3)6{pyCOpyC(O)(OMe)py}3(MeOH)2(H2O)][Ni6(CO3)(N3)6{pyCOpyC(O) (OMe)py}3(MeOH)3](ClO4)2 (3∙1.8MeOH) and the dinuclear complex [Fe2{pyCO(OMe)py(Η)CO(OMe)py}2(MeO)2](ClO4)2∙(4∙MeOH) were synthesized. In addition, in order to study the coordination chemistry of the same ligand with mixed 3d transition metal ions and 4f lanthanide ions, the heterometallic dinuclear complexes [ΜIILnIII{pyCOH(OEt)pyCOH(OEt)py}3] (ClO4)2∙EtOH (5-16∙EtOH) were synthesized, with ΜΙΙ = CuΙΙ, CoΙΙ, NiΙΙ, ZnΙΙ, MnΙΙ, FeΙΙ [LnΙΙΙ = GdΙΙΙ (5 - 10), TbΙΙΙ (11 – 16) respectively]. All complexes were structurally characterized and complexes 4, 10 and 16 were characterized by Mössbauer spectroscopy. Magnetic properties measurements of complexes 1-3, 5 and 10 indicated the existence of ferromagnetic interactions, while those of 4, 6, 7 and 9 indicated the existence of antiferromagnetic interactions. For the in depth study of the family of basic iron (III) carboxylates [Fe3O(O2CR)6(H2O)3]A, two series of complexes were prepared with R = Cl3C, CHBr2, CH2F, CH2Cl, C(OH)Ph2, H, Ph, Cl(CH2)3, Me, CHMe2, Et and Me3C. For the former series (17 - 28) the counteranion (A-) is ClO4- and for the latter (29 - 40) is NO3-. Attempts to prepare the respective trifluoroacetate (R = CF3) complexes were unsuccessful and the reaction system lead to the tetranuclear “butterfly” complex [Fe4O2(O2CCF3)8(H2O)6] (41), irrespective of whether perchlorates or nitrates were used as counteranions. Mössbauer studies revealed very similar isomer shifts for all complexes in the region of 0.51 – 0.54 mms-1, and variable quadrupole splittings, ranging from 0.36 to 0.76 mms-1. Mössbauer studies of the complexes were carried out in frozen MeCN solutions in order to assess their stability in solution and they proved to be stable in MeCN solutions, except complex 29 (R = Cl3C, Α = NO3-), which dissociated to a butterfly-type complex. The high-symmetry cluster [Fe3O(O2CPh)6(py)3](ClO4)∙py (42) has been structurally characterized and its Inelastic Incoherent Neutron Scattering studies have been reported. These studies suggested the existence of a magnetic Jahn-Teller effect at lower temperatures. Seeking to study if there is any correlation between magnetic and structural symmetry, we undertook variable-temperature crystallographic studies on ESRF BM01A beamline. With the results of these data we concluded that the symmetry of the crystal remained. Moreover, we have discovered that this complex exhibits magnetic relaxation phenomena under weak magnetic fields, observed by ac magnetic susceptometry. Λανθανιδικά ιόντα 4f Μαγνητικές μετρήσεις Μετρήσεις Mössbauer 546.25 DI-2, 6-(2-pyridylcarbonyl) pyridine Transition metal ions 3d Lanthanide ions 4f Basic iron(III) carboxylates Magnetic measurements Mössbauer studies Magnetic Jahn – Teller effect Magnetic relaxation phenomena
59	À la racine des traits fonctionnels : comprendre l’influence de la fertilité des sols sur la distribution des traits racinaires et l’impact de cette association sur la distribution des espèces végétales Guilbeault-Mayers, Xavier 08 1900 (has links) Les plantes se distribuent dans des habitats présentant une disponibilité variable en nutriment et s'y adaptent en ajustant leur taux de croissance relatif. Les espèces adaptées aux habitats infertiles, affichent un taux de croissance plus faible que celles adaptées aux habitats fertiles. Les adaptations expliquant cette distribution ont été identifiées, premièrement, au niveau des feuilles. Un fort taux de fixation du carbone et d’allocation de ce dernier à la croissance sont favorisés en investissant davantage dans des tissus foliaires contenant des enzymes photosynthétiques riches en azote, par rapport aux tissus structuraux riches en carbone. Inversement, les feuilles favorisant une croissance lente présentent une plus grande quantité de tissus structuraux que de tissus riches en enzymes photosynthétiques, ce qui prolonge leur longévité, mais restreint leur taux d'assimilation du carbone. Étant donné que les adaptations foliaires dépendent de l'utilisation des nutriments acquis par les racines, les adaptations de ces dernières sont essentielles pour comprendre la distribution des plantes. Le fonctionnement des racines est influencé par les mêmes variations dans le ratio entre les tissus à forte teneur en protéines riches en azote et les tissus structuraux. Les fortes valeurs de ce ratio améliorent l’acquisition des nutriments et soutiennent une croissance rapide, tandis que les faibles valeurs prolongent la longévité des racines, mais restreignent leur taux d'acquisition. Cependant, les racines doivent également explorer le sol dû à la mobilité limitée des nutriments. Cette fonction est réalisée en établissant des relations symbiotiques avec des champignons ou par l'allongement de leurs racines. Cependant, contrairement aux adaptations foliaires, la relation entre ces adaptations racinaires et la disponibilité des nutriments présente des résultats contradictoires. De plus, ces adaptations n'influencent pas l'acquisition des nutriments non directement disponibles, comme les nutriments organiques, qui peuvent représenter une proportion importante des nutriments du sol. Cela limite notre compréhension de la nutrition des plantes et entrave notre compréhension des mécanismes expliquant leur distribution. Afin de mieux comprendre la nutrition des plantes, des feuilles et des racines furent échantillonnées le long de gradients de fertilité. Les résultats ont montré que l'utilisation de nutriments organiques par le biais d'enzymes hydrolytiques augmentait à mesure que la fertilité des sols diminuait. De plus, une forte corrélation entre cette adaptation et les adaptations racinaires liées aux taux d'acquisition des nutriments a été observée, mais aucune corrélation n'a été constatée avec celles liées à l'exploration du sol. En revanche, dans un autre système d'étude, les résultats ont indiqué que les adaptations racinaires liées à l'exploration du sol, plutôt que celles associées aux taux d'acquisition des nutriments, s'alignaient avec la variation de la disponibilité des nutriments et se coordonnaient avec les adaptations foliaires qui permettent d’expliquer en partie la distribution des plantes. Dans l'ensemble, ces études ont approfondi notre compréhension de la nutrition des plantes et ont révélé différentes relations entre la variation de la disponibilité des nutriments et les adaptations racinaires influençant l'acquisition des nutriments et l'exploration du sol. Cela suggère qu’une généralisation des adaptations racinaires répondant systématiquement aux demandes nutritionnelles des feuilles est peu probable. / Plants are distributed across habitats of varying nutrient availability and adapt by adjusting, notably, their relative growth rates. Species adapted to nutrient-poor habitats exhibit lower growth rates than those adapted to nutrient-rich habitats. The adaptations explaining this distribution have been identified, first and foremost, at the leaf level. Leaves promoting rapid growth enhance net carbon assimilation by investing more in nitrogen-rich photosynthetic enzymes compared to carbon-rich structural tissues. This extends their lifespan, enhances their nutrient-use efficiency but limits carbon assimilation. Given that foliar adaptations depend on the utilization of nutrients acquired by roots, root adaptations are essential to understanding plant distribution. Plants possess also the ability to modify the ratio between nitrogen-rich protein tissues and carbonrich structural tissues in their roots. Similarly to leaf functioning, increasing this ratio enhances the efficiency of nutrient acquisition while minimizing carbon investment, enabling optimal carbon allocation for growth. On the other hand, they can decrease this ratio to prioritize nutrient conservation, which extends their longevity but restricts nutrient acquisition rate. However, roots must also explore the soil due to the limited mobility of nutrients. Soil exploration is achieved by establishing symbiotic relationships with fungi or through the elongation of their roots. Unlike leaf adaptations, the relationship between these root adaptations and nutrient availability yields contradictory results. Additionally, these adaptations do not directly influence the acquisition of non-readily available soil nutrients, such as organic nutrients, which can represent a significant proportion of the total nutrient pool. Thus, our understanding of plant nutrition is limited, impeding our understanding of the mechanisms explaining their distributions. To contribute to an enriched understanding of plant nutrition, leaves and roots were sampled along strong fertility gradients. The results revealed an increase in the utilization of organic nutrients through hydrolytic enzymes as the availability of directly accessible nutrients declined. Furthermore, a strong correlation between this adaptation and root adaptations related to nutrient acquisition rates has been observed, but no correlation was found with adaptations related to soil exploration. On the other hand, in another study system, the results indicated that root adaptations related to soil exploration, rather than those associated with nutrient acquisition rates, aligned with the variation in nutrient availability and coordinated with foliar adaptations influencing net carbon assimilation. As a result, a high degree of mycorrhizal symbiosis was associated with leaves favoring rapid growth in fertile soil. Overall, roots displaying a high density of structural tissues and a high degree of symbiotic association were associated with fertile soil across two different study systems. Altogether, these results have deepened our understanding of plant nutrition and revealed different possible relationships between nutrient availability variation and root adaptations influencing nutrient acquisition and soil exploration. This suggests that generalizing root adaptations that consistently meet the nutrient demands of leaves is unlikely. Activité des phosphatases Adaptations racinaires et foliaires Colonisation mycorhizienne Compromis fondamental Écologie basée sur les traits Espace économique racinaire Exsudation de carboxylates Gradient de collaboration Gradient de conservation Gradient de fertilité Spectre économique foliaire Stratégie végétale Trait-based ecology Plant strategy Fundamental trade-off Fertility gradient Root and leaf adaptations Root economic space Collaboration gradient Conservation gradient Leaf economic spectrum Mycorrhizal colonization Phosphatase activity Carboxylate exudation Ecology / Écologie (UMI : 0329)

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