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101	Applications of Solid-Phase Microextraction to Chemical Characterization of Materials Used in Road Construction Tang, Bing January 2008 (has links) Environmental and health aspects of road materials have been discussed for a long time, mostly regarding bitumen and bitumen fumes. However, just a few studies on other types of road materials have been reported. In this doctoral study, two types of materials, asphalt release agents and bituminous sealants, were investigated with regard to chemical characterization and emission profiles. Besides conventional test methods, solid-phase microextraction (SPME) technique was applied for emissions profiles screening and quantitative analysis. General description of main characteristics of asphalt release agents and bituminous sealants is given, and a comprehensive state-of-the-art on SPME technique is presented, especially on methodologies for analyzing mono- and polycyclic aromatic hydrocarbons (MAHs and PAHs) in different sample matrices. In the experimental study, chemical characterization of the two material types was performed using conventional methods, including fourier transform infrared spectroscopy - attenuated total reflectance (FTIR-ATR), gel permeation chromatography (GPC), mass spectrometry (MS) and gas chromatography – mass spectrometry (GC-MS). General patterns regarding functional groups and molecular weight distribution were studied. In the case of asphalt release agents, more detailed information on chemical compositions, especially the contents of MAHs and PAHs, was obtained. General information on emission proneness of asphalt release agents was obtained using thermogravimetric analysis (TGA) and MS. Using headspace(HS)-SPME and GC-MS, emission profiles of asphalt release agents were characterized at different temperatures, whereas the profiles of bituminous sealants were obtained solely at room temperature. The results presented were used for ranking the materials with regard to degree of total emission as well as emission of hazardous substances. The applicability of HS-SPME for quantitative analysis of MAHs in asphalt release agents and emulsion-based bituminous sealants was investigated. The use of a surrogate sample matrix was concerned, and experimental parameters influencing the HS-SPME procedure, such as equilibration and extraction time, as well as effects of sample amount and matrices, were studied. The methods were evaluated with regard to detection limit, accuracy as well as precision. Different calibration approaches including external calibration, internal calibration and standard addition were investigated. The determination of MAHs in asphalt release agents and emulsion-based bituminous sealants using HS-SPME-GC-MS was conducted. / QC 20100913 Asphalt release agents Petroleum oils Vegetable oils Bituminous sealants Bitumen Emissions Monocyclic aromatic hydrocarbons Polycyclic aromatic hydrocarbons Gel Permeation Chromatography Mass Spectrometry Gas Chromatography - Mass Spectrometry Thermogravimetric Analysis Headspace Solid-phase microextraction Calibration. Building engineering Byggnadsteknik
102	On Ternary Phases of the Systems RE–B–Q (RE = La – Nd, Sm, Gd – Lu, Y; Q = S, Se) Borna, Marija 15 October 2012 (has links) (PDF) It is known that boron containing compounds exhibit interesting chemical and physical properties. In the past 50 years modern preparative methods have led to an overwhelming number of different structures of novel and often unexpected boron–sulfur and boron–selenium compounds. Among all these new compounds, there was only one which comprises rare earth metal (RE), boron and heavier chalcogen, namely sulfur, the europium thioborate Eu[B2S4] [1]. Selenoborates of rare earth metals are hitherto unknown. On the other hand, rare earth oxoborates represent a well-known class of compounds [2] with a wide range of applications, especially in the field of optical materials. In addition, well-defined boron compounds containing the heavier group 16 elements are fairly difficult to prepare due to the high reactivity of in situ formed boron chalcogenides towards most container materials at elevated temperatures. The chalcogenoborates of the heavier chalcogens are sensitive against oxidation and hydrolysis and therefore have to be handled in an inert environment. Therefore, developing and optimization of preparative routes for the syntheses of pure and crystalline RE thio- and selenoborates was needed. In the course of this study, the application of different preparation routes, such as optimized high-temperature routes (HT), metathesis reactions and high-pressure high-temperature routes (Hp – HT), led to sixteen new rare earth thioborates. Their crystal structures were solved and/or refined from powder and single crystal X-ray diffraction data, while the local structure around rare earth metal was confirmed from the results of the EXAFS analyses. Quantum mechanical calculations were used within this work in order to investigate the arrangement of intrinsic vacancies on the boron sites in the crystal structures of rare earth thioborates. Thermal, magnetic and optical properties of these compounds are also discussed. The rare earth thioborates discovered during this work are the first examples of ternary thioborates containing trivalent cations. These compounds can be divided into two groups of isotypic compounds: the rare earth orthothioborates with general formula REIII[BS3] (RE = La – Nd, Sm, Gd and Tb) [3] and the rare earth thioborate sulfides with general formula REIII¦9B5S21, (RE = Gd – Lu, and Y) [4]. In the crystal structure of RE[BS3] (orthorhombic, space group Pna21, Z = 4), the sulfur atoms form the vertices of corrugated kagome nets, within which every second triangle is occupied by boron and the large hexagons are centered by RE cations. The structural features of the isotypic RE[BS3] phases show great similarities to those of rare earth oxoborates RE[BO3] and orthothioborates of alkali and alkaline earth metals as well as to thallium orthothioborate, yet pronounced differences are also observed: the [BS3]3– groups in the crystal structures of RE[BS3] are more distorted, where the distortion decreases with the decreasing size of the RE element, and the coordination environments of the [BS3]3– groups in the crystal structures of RE[BS3] are different in comparison with the coordination environments of the [BO3]3– groups in the crystal structures of λ-Nd[BO3] [5] and of o-Ce[BO3] [6]. The results of the IR and Raman investigations are in agreement with the presence of [BS3]3– anions in the crystal structure of RE[BS3]. Thermal analyses revealed the thermal stability of these compounds under inert conditions up to ~ 1200 K. Analyses of the magnetic properties of the Sm, Gd and Tb thioborates showed that both Gd and Tb phases order antiferromagnetically. The magnetic susceptibility for Sm orthothioborate approximately follows the Van-Vleck theory for Sm3+. Between 50 K and 62 K a transition appears which is independent of the magnetic field: the magnetic susceptibility becomes lower. This effect might indicate a discontinuous valence transition of Sm which was further investigated by means of XANES and X-ray diffraction using synchrotron radiation, both at low temperatures. The series of isotypic RE thioborate sulfides with composition RE9B5S21, was obtained by the application of Hp – HT conditions to starting mixtures with the initial chemical composition “REB3S6“, after careful optimization of the pressure, temperature and treatment time, as well as the composition of the starting mixtures. Their crystal structures adopt the Ce6Al3.33S14 [7] structure type (hexagonal, space group P63, Z = 2/3). The special features of the RE9B5S21 crystal structures, concerning boron site occupancies and different coordination environments of the two crystallographically independent boron sites, were investigated in more detail by means of quantum chemical calculations, electron diffraction methods, optical and X-ray absorption spectroscopy as well as by 11B NMR spectroscopy. The results obtained from these different experimental and computational methods are in good mutual agreement. The crystal structures of the RE9B5S21 compounds are characterized by two types of anions: tetrahedral [BS4]5– and trigonal planar [BS3]3– as well as [(S2–)3] units. Isolated [BS4]5– tetrahedra (all pointing with one of their apices along the polar [001] direction) represent a unique feature of the crystal structure which is observed for the first time in a thioborate compound. These tetrahedra are stacked along the three-fold rotation axes. Vacancies are located at the trigonal-planar coordinated boron site with preferred ordering –B–B––B–B–– along [001]. No superstructure is observed by means of electron diffraction methods as adjacent columns are shuffled along the c axis, giving rise to a randomly distributed vacancy pattern. Positions of the sulfur atoms within the [(S2–)3] substructure as well as planarity of the [BS3]3– units were investigated in more detail by means of quantum mechanical calculations. Results of the IR and Raman spectroscopy, as well as of the 11B NMR spectroscopy are in agreement with the presence of the boron atoms in two different coordination environments. Thermal analyses showed that compounds RE9B5S21 are stable under inert conditions up to ~ 1200 K. In accordance with the combined results of experimental and computational investigations, the chemical formula of the RE9B5S21 compounds is consistent with RE3[BS3]2[BS4]3S3. A short overview of investigations towards rare earth selenoborates, where in most of the cases only known binary rare earth selenides could be identified, is presented as well in this work. Investigations in the RE–B–Se systems were conducted by the application of different preparation routes by varying the experimental parameters and the initial compositions of the starting mixtures. Although no crystal structure of a ternary phase in these systems could be solved, there are indications that such phases exist, but further investigations are needed. [1] M. Döch, A. Hammerschmidt, B. Krebs, Z. Anorg. Allg. Chem., 2004, 630, 519. [2] H. Huppertz, Chem. Commun., 2011, 47, 131; and references therein. [3] J. Hunger, M. Borna, R. Kniep, J. Solid State Chem., 2010, 182, 702; J. Hunger, M. Borna, R. Kniep, Z. Kristallogr. NCS, 2010, 225, 217; M. Borna, J. Hunger, R. Kniep, Z. Kristallogr. NCS, 2010, 225, 223; M. Borna, J. Hunger, R. Kniep, Z. Kristallogr. NCS, 2010, 225, 225. [4] M. Borna, J. Hunger, A. Ormeci, D. Zahn, U. Burkhardt, W. Carrillo-Cabrera, R. Cardoso-Gil, R. Kniep, J. Solid State Chem., 2011, 184, 296; [5] H. Müller-Bunz, T. Nikelski, Th. Schleid, Z. Naturforsch. B, 2003, 58, 375. [6] H. U. Bambauer, J. Weidelt, J.-St. Ysker, Z. Kristallogr., 1969, 130, 207. [7] D. de Saint-Giniez, P. Laruelle, J. Flahaut, C. R. Séances, Acad. Sci. Ser. C, 1968, 267, 1029. Seltenerden chalcogenoborate Seltenerden elemente Hoch-Druck Hoch-Temperatur Synthese Bor Schwefel Röntgen Diffraktometrie XAS Metathese Reaktionen IR Spektroskopie Raman Spektroskopie Thermogravimetrische Analyse Rare earth chalcogenoborates Rare earth elements High-pressure high-temperature synthesis Boron Sulfur X-ray diffraction XAS Metathesis reaction IR spectroscopy Raman spectroscopy Thermogravimetric analysis ddc:540 rvk:VE 9507
103	POCN-type Pincer Complexes of NiII and NiIII : synthesis, reactivities, catalytic activities and physical properties Spasyuk, Denis M. 08 1900 (has links) Cette thèse décrit la synthèse, la caractérisation, les réactivités, et les propriétés physiques de complexes divalents et trivalents de Ni formés à partir de nouveaux ligands «pincer» de type POCN. Les ligands POCN de type amine sont préparés d’une façon simple et efficace via l’amination réductrice de 3-hydroxybenzaldéhyde avec NaBH4 et plusieurs amines, suivie par la phosphination de l’amino alcool résultant pour installer la fonction phosphinite (OPR2); le ligand POCN de type imine 1,3-(i-Pr)2PC6H4C(H)=N(CH2Ph) est préparé de façon similaire en faisant usage de PhCH2NH2 en l’absence de NaBH4. La réaction de ces ligands «pincer» de type POCN avec NiBr2(CH3CN)x en présence d’une base résulte en un bon rendement de la cyclométalation du lien C-H situé en ortho aux fonctions amine et phosphinite. Il fut découvert que la base est essentielle pour la propreté et le haut rendement de la formation des complexes «pincer» désirés. Nous avons préparé des complexes «pincer» plan- carrés de type POCN, (POCNRR΄)NiBr, possédant des fonctions amines secondaires et tertiaires qui démontrent des réactivités différentes selon les substituants R et R΄. Par exemple, les complexes possédant des fonctions amines tertiaires ArCH2NR2 (NR2= NMe2, NEt2, and morpholinyl) démontrent des propriétés rédox intéressantes et pourraient être convertis en leurs analogues trivalents (POCNR2)NiBr2 lorsque réagis avec Br2 ou N-bromosuccinimide (NBS). Les complexes trivalents paramagnétiques à 17 électrons adoptent une géométrie de type plan-carré déformée, les atomes de Br occupant les positions axiale et équatoriale. Les analyses «DSC» et «TGA» des ces composés ont démontré qu’ils sont thermiquement stables jusqu’à ~170 °C; tandis que la spectroscopie d’absorption en solution a démontré qu’ils se décomposent thermiquement à beaucoup plus basse température pour regénérer les complexes divalents ne possédant qu’un seul Br; l’encombrement stérique des substitutants amines accélère cette route de décomposition de façon significative. Les analogues NMe2 et N(morpholinyl) de ces espèces de NiIII sont actifs pour catalyser la réaction d’addition de Kharasch, de CX4 à des oléfines telles que le styrène, tandis qu’il fut découvert que l’analogue le moins thermiquement stable (POCNEt2)Ni est complètement inerte pour catalyser cette réaction. Les complexes (POCNRH)NiBr possédant des fonctions amines secondaires permettent l’accès à des fonctions amines substituées de façon non symétrique via leur réaction avec des halogénures d’alkyle. Un autre avantage important de ces complexes réside dans la possibilité de déprotonation pour préparer des complexes POCN de type amide. De telles tentatives pour déprotoner les fonctions NRH nous ont permis de préparer des espèces dimériques possédant des ligands amides pontants. La nature dimérique des ces complexes [P,C,N,N-(2,6-(i-Pr)2PC6H3CH2NR)Ni]2 (R= PhCH2 et Ph) fut établie par des études de diffraction des rayons-X qui ont démontré différentes géométries pour les cœurs Ni2N2 selon le substituant N : l’analogue (PhCH2)N possède une orientation syn des substitutants benzyles et un arrangement ressemblant à celui du cyclobutane du Ni et des atomes d’azote, tandis que l’analogue PhN adopte un arrangement de type diamant quasi-planaire des atomes du Ni et des atomes d’azote et une orientation anti des substituants phényles. Les espèces dimériques ne se dissocient pas en présence d’alcools, mais elles promouvoient l’alcoolyse catalytique de l’acrylonitrile. De façon intéressante, les rendements de ces réactions sont plus élevés avec les alcools possédant des fonctions O-H plus acides, avec un nombre de «turnover» catalytique pouvant atteindre 2000 dans le cas de m-cresol. Nous croyons que ces réactions d’alcoolyse procèdent par activation hétérolytique de l’alcool par l’espèce dimérique via des liaisons hydrogènes avec une ou deux des fonctions amides du dimère. Les espèces dimériques de Ni (II) s’oxydent facilement électrochimiquement et par reaction avec NBS ou Br2. De façon surprenante, l’oxydation chimique mène à l’isolation de nouveaux produits monomériques dans lesquels le centre métallique et le ligand sont oxydés. Le mécanisme d’oxydation fut aussi investigué par RMN, «UV-vis-NIR», «DFT» et spectroélectrochimie. / This thesis describes the synthesis, characterization, reactivities, and physical properties of divalent and trivalent complexes of Nickel based on new POCN-type pincer ligands. The amino-type POCN ligands were prepared in a simple and efficient manner via reductive amination of 3-hydroxybenzaldehyde with NaBH4 and various amines, followed by phosphination of the resulting amino alcohol to install the phosphinite (OPR2) functionality. The imino-type POCN ligand 1,3-(i-Pr)2PC6H4C(H)=N(CH2Ph) was prepared similarly using PhCH2NH2 in the absence of NaBH4. Reaction of these POCN-type pincer ligands with NiBr2(CH3CN)x in the presence of a base results in the high yield cyclometalation of the C-H bond which is ortho to the amine and phosphinite functionalities. The base was found to be essential for a clean and high yield formation of the desired pincer complexes. We have thus prepared square planar POCN-type pincer complexes (POCNRR΄)NiBr featuring tertiary or secondary amine moieties that exhibit different reactivities as a function of amine substituents R and R΄. For instance, complexes bearing the tertiary amine moieties ArCH2NR2 (NR2= NMe2, NEt2, and morpholinyl) displayed interesting redox properties and could be converted into their trivalent analogues (POCNR2)NiBr2 when reacted with Br2 or N-bromosuccinimide (NBS). These 17-electron, paramagnetic trivalent complexes adopt a distorted square pyramidal geometry with Br atoms at axial and equatorial positions. DSC and TGA analyses of these compounds revealed them to be thermally stable up to ~170 °C; whereas absorption spectroscopy in solution showed that they undergo thermal decomposition at much lower temperatures to regenerate the monobromo divalent complexes; increased steric bulk of the amine substituents accelerate this decomposition pathway significantly. The NMe2 and N(morpholinyl) analogues of these NiIII species are active catalysts for the Kharasch addition of CX4 to olefins such as styrene, whereas the least thermally stable analogue (POCNEt2)Ni was found to be completely inert for this reaction. The complexes (POCNRH)NiBr featuring secondary amine moieties allow access to unsymmetrically substituted amine moieties via reaction with alkyl halides. Another important advantage of these complexes lies in the possibility of deprotonation to prepare amide-type POCN complexes. Such attempts at deprotonating the NRH moieties have allowed us to prepare dimeric species featuring bridging amido ligands. The dimeric nature of these complexes [P,C,N,N-(2,6-(i-Pr)2PC6H3CH2NR)Ni]2 (R= PhCH2 and Ph) was established through X-ray diffraction studies that showed different geometries for the Ni2N2 cores as a function of N-substituent: the (PhCH2)N analogue featured a syn orientation of the benzyl substituents and a cyclobutane-like arrangement of Ni and of the nitrogen atoms, whereas the PhN analogue adopted a nearly planar diamond-like arrangement of the Ni and of the nitrogen atoms and an anti orientation of the phenyl substituents. These dimeric species do not dissociate in the presence of alcohols, but they promote the catalytic alcoholysis of acrylonitrile. Interestingly, yields of these reactions are higher with alcohols possessing more acidic O-H moieties, with a catalytic turnover number reaching up to 2000 in the case of m-cresol. These alcoholysis reactions are believed to proceed through heterolytic activation of the alcohol by dimeric species via hydrogen bonding with one or two amido moieties in the dimer. The dimeric Ni (II) species were found to undergo facile oxidation both electrochemically and in reaction with NBS or Br2. Surprisingly, chemical oxidation led to isolation of new monomeric products in which both the metallic center and the ligand were oxidized. giving a trivalent species featuring an imine-type POCN ligand. Oxidation mechanism was investigated in detail by NMR, UV-vis-NIR, DFT and spectroelectrochemistry. Nickel (II) complexes POCN-type Nickel (III) complexes «pincer» X-ray diffraction thermogravimetric analysis olefin hydroalkoxylation differential scanning calorimetry spectroelectrochemistry C-H activation activation C-H RMN NMR voltampérométrie cyclique cyclic voltammetry hydroalkoxylation des oléfines «pincer» de type POCN diffraction des rayons-X
104	Effect of Thermal and Chemical Treatment of Soy Flour on Soy-Polypropylene Composite Properties Guettler, Barbara Elisabeth 06 November 2014 (has links) Soy flour (SF), a by-product of the soybean oil extraction processing, was investigated for its application in soy-polypropylene composites for interior automotive applications. The emphasis of this work was the understanding of this new type of filler material and the contribution of its major constituents to its thermal stability and impact properties. For this reason, reference materials were selected to represent the protein (soy protein isolate (SPI)) and carbohydrate (soy hulls (SH)) constituents of the soy flour. Additional materials were also investigated: the residue obtained after the protein removal from the soy flour which was called insoluble soy (IS), and the remaining liquid solution after acid precipitation of the proteins, containing mostly sugars and minerals, which was called soluble sugar extract (SSE). Two treatments, potassium permanganate and autoclave, were analyzed for their potential to modify the properties of the soy composite materials. An acid treatment with sulfuric acid conducted on soy flour was also considered. The soy materials were studied by thermogravimetric analysis (TGA) under isothermal (in air) and dynamic (in nitrogen) conditions. SPI had the highest thermal stability and SSE the lowest thermal stability for the early stage of the heating process. Those two materials had the highest amount of residual mass at the end of the dynamic TGA in nitrogen. The two treatments showed minimal effect on the isothermal thermal stability of the soy materials at 200 ??C. A minor improvement was observed for the autoclave treated soy materials. Fourier transformed infrared (FTIR) spectroscopy indicated that the chemical surface composition differed according to type of the soy materials but no difference could be observed for the treatments within one type of soy material. Contact angle analysis and surface energy estimation indicated differences of the surface hydrophobicity of the soy materials according to type of material and treatment. The initial water contact angle ranged from 57 ?? for SF to 85 ?? for SH. The rate of water absorption increased dramatically after the autoclave treatment for IS and SPI. Both materials showed the highest increase in the polar surface energy fraction. In general, the major change of the surface energy was associated with change of the polar fraction. After KMnO4 treatment, the polar surface energy of SF, IS and SPI decreased while SH showed a slight increase after KMnO4 treatment. A relationship between protein content and polar surface energy was observed and seen to be more pronounced when high protein containing soy materials were treated with KMnO4 and autoclave. Based on the polar surface energy results, the most suitable soy materials for polypropylene compounding are SPI (KMnO4), SH, and IS (KMnO4) because their polar surface energy are the lowest which should make them more compatible with non-polar polymers such as polypropylene. The soy materials were compounded as 30 wt-% material loading with an injection moulding grade polypropylene blend for different combinations of soy material treatment and coupling agents. Notched Izod impact and flexural strength as well as flexural modulus estimates indicated that the mechanical properties of the autoclaved SF decreased when compared to untreated soy flour while the potassium permanganate treated SF improved in impact and flexural properties. Combinations of the two treatments and two selected (maleic anhydride grafted polypropylene) coupling agents showed improved impact and flexural properties for the autoclaved soy flour but decreased properties for the potassium permanganate treated soy flour. Scanning electron microscopy of the fractured section, obtained after impact testing of the composite material, revealed different crack propagation mechanisms for the treated SF. Autoclaved SF had a poor interface with large gaps between the material and the polypropylene matrix. After the addition of a maleic anhydride coupling agent to the autoclaved SF and polypropylene formulation, the SF was fully embedded in the polymer matrix. Potassium permanganate treated SF showed partial bonding between the material and the polymer matrix but some of the material showed poor bonding to the matrix. The acid treated SF showed cracks through the dispersed phase and completely broken components that did not bind to the polypropylene matrix. In conclusion, the two most promising soy materials in terms of impact and flexural properties improvement of soy polypropylene composites were potassium permanganate treated SF and the autoclaved SF combined with maleic anhydride coupling agent formulation. Soy flour Soy protein Carbohydrates Polypropylene Coupling agent Composites Autoclave treatment Chemical treatment Automotive applications Contact angle Surface energy Interfacial energy Surface roughness Hydrophilicity Thermogravimetric analysis (TGA) Crack propagation Impact strength (toughness) Flexural modulus (stiffness)
105	Akzeptorsubstituierte Oligothiophene und Fluorene für die Anwendung in organischen Solarzellen Wrackmeyer, Marion Sofia 20 July 2011 (has links) (PDF) In der vorliegenden Arbeit wurden Thiophenoligomere nach dem Konzept Akzeptor – Donator – Akzeptor (A-D-A) und Donator – Akzeptor – Donator (D-A-D) synthetisiert und umfassend charakterisiert. Oligothiophene unterschiedlicher Kettenlänge stellen dabei den Donatoranteil des Moleküls dar, während 2,2-Dicyanovinyle (DCV), 1,3,2-2H-Dioxaborine (DOB), 2,1,3-Benzothiadiazole (BTDA) die Akzeptorstruktur im Molekül repräsentieren. Diese Materialien sollen als Absorber in der intrinsischen Schicht von organischen Solarzellen (OSC) eingesetzt werden. Zusätzliche Untersuchungen an DOB-substituierten Fluorenen, die als Elektronentransportmaterialien in der n-Schicht von OSC Anwendung finden sollten, erwiesen sich in diesem Fall nicht als vielversprechend. Alle untersuchten Verbindungen wurden, abhängig von ihrer Löslichkeit bzw. Verdampfbarkeit im Vakuum, durch Absorption in Lösung und im dünnen Film, durch Cyclovoltammetrie (CV) und durch DFT-Rechnung charakterisiert. Die thermische Stabilität wurde durch TG/DTA-Messungen untersucht. Die Ladungsträgerbeweglichkeit der DCV-Verbindungen wurde in organischen Feldeffekttransistoren untersucht, sowie Solarzellen mit verschiedenen Schichtdicken der Quinquethiophenverbindung DCV2-5T als Donatormaterial der intrinsischen Schicht angefertigt. Eine gezielte Modifikation der Verbindungen durch Wahl des Akzeptors und die Länge des aromatischen Systems ermöglichte die Synthese von Molekülen mit abstimmbaren Eigenschaften. Eine bathochrome Verschiebung des Absorptionsmaximums kann durch eine Vergrößerung des π-Systems erreicht werden. CV-Messungen und DFT-Rechnungen zeigen, dass E(LUMO) maßgeblich vom Akzeptor bestimmt wird, während E(HOMO) mehr durch den Donatorteil des Moleküls beeinflusst wird. Diese Eigenschaften sind unabhängig vom Aufbau (A-D-A oder D-A-D) der Verbindungen. Bezüglich der thermischen Stabilität sind die D-A-D – Verbindungen gegenüber den A-D-A – Verbindungen zu favorisieren. Ein weiterer wichtiger Schlüsselpunkt der Arbeit ist die Erkenntnis, dass die bisher verwendeten Alkylketten am Rückgrat des Oligothiophens die Löcherbeweglichkeit der Verbindungen stark herabsetzen. Zwei Solarzellen in einer m-i-p– Anordnung (Metall – intrinsisch – p-dotiert) erreichen mit dem DCV2-5T (Schichtdicke 6 bzw. 10 nm) als Donatormaterial eine Effizienz von 2.8 %. Die Zellen zeichnen sich durch einen hohen Füllfaktor (bis zu 58 %) aus und erreichen eine Leerlaufspannung von bis zu 1.03 V. Die Interpretation der J-V-Kennlinien führt zu der Annahme, dass die Exzitonendiffusionslänge kürzer als 10 nm ist, weswegen es bei einer höheren Schichtdicke des Thiophens zu einer Rekombination der erzeugten Exzitonen kommt. / The present thesis deals with thiophene oligomers according to the concept acceptor-donor-acceptor (A-D-A) or donor-acceptor-donor (D-A-D). Thiophenes represent the donor-part of the molecule whereas the acceptor-part can either be 2,2-dicyanovinyle (DCV), 1,3,2-2H-dioxaborine (DOB) or 2,1,3-benzothiadiazole (BTDA). These materials are supposed to work as absorbers in the intrinsic layer of an organic small molecular solar cell (OSC). Additional studies on substituted fluorenes, however, known to work as electron transport material in the n-layer of OSC, have not proved promising in this case. Depending on their solubility in organic solvents or their suitability for vacuum sublimation, all compounds were characterised by absorption measurements in solution and thin film, cyclic voltammetry (CV) and DFT-calculations. The thermal stability was determined by thermal analysis. Charge carrier mobility measurements using organic field effect transistors were applied to investigate the DCV-compounds. The quinquethiophene DCV2-5T was used in varying thicknesses as a donor material in the intrinsic absorbing layer of an OSC. Systematic variation of the compounds by applying different accepting groups and/or modifying the lengths of the aromatic systems permitted the synthesis of molecules with tunable properties. A bathochromic shift of the absorption maximum can be achieved by increasing the number of thiophene units. CV measurements and DFT calculations reveal a dependency of E(LUMO) on the accepting group whereas E(HOMO) is more influenced by the donor part of the molecule. These properties are independent from the concept A-D-A or D-A-D. Concerning thermal stability, D-A-D compounds seem to be more stable than A-D-A materials. Another important point is the knowledge that alkyl chains used so far at the backbone of the oligothiophene chain significantly decrease the hole mobility. Two OSCs arranged in an m-i-p-stack (metal – intrinsic – p-doped) with the quinquethiophene DCV2-5T (layer thickness 6 and 10 nm) both reach an efficiency of 2.8 %. They show a high fillfactor (up to 58 %) and reach an open circuit voltage of 1.03 V. Interpretation of the other parameters leads to the assumption that the exciton diffusion length of the molecule is shorter than 10 nm. This results in a recombination of the excitons in the cell with the thicker layer of DCV2-5T. organische Solarzelle Synthese Oligothiophen Fluoren Dioxaborin Dicyanovinyl Benzothiadiazol Cyclovoltammetrie DFT Rechnung Thermogravimetrische Analyse OFET Messungen organic solar cell synthesis oligothiophene fluorene dioxaborine dicyanovinyle benzothiadiazole cyclic voltammetry DFT calculation thermogravimetric analyse OFET measurement ddc:530 rvk:VE 6300 rvk:UP 3050
106	Laponite-supported titania photocatalysts Daniel, Lisa Maree January 2007 (has links) This thesis describes the synthesis and characterisation of titania photocatalysts for incorporation into a polyethylene film. Monodisperse, anatase-phase titania nanoparticles are prepared and the synthesis conditions necessary for attraction to a laponite clay support are determined. Methods of preventing agglomeration of the laponite system such as the use of a polyethylene oxide surfactant or chemical modification of the laponite plate edges with a dimethyloctyl methoxysilane are also explored. Finally, photocatalytic studies on the laponite-supported titania nanoparticles are performed, and the compatibility and photoactivity of these materials in the polyethylene film are examined. Titania titanium dioxide anatase photoactivity photocatalyst clay colloid hydrothermal treatment laponite surfactant silane silylation edge-modification X-ray diffraction polymer degradation transmission electron microscopy infrared emission spectroscopy BET N2 sorption thermogravimetric analysis
107	Indicadores da qualidade do solo de propriedades em transição agroecológica. / Indicators of soil quality properties in agroecological transition. RUFINO, Sara Regina Miranda. 23 April 2018 (has links) Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-04-23T15:55:11Z No. of bitstreams: 1 SARA REGINA MIRANDA RUFINO - TESE PPGEP 2014..pdf: 3286437 bytes, checksum: cfafef220e2b9de314c5df81f2286b36 (MD5) / Made available in DSpace on 2018-04-23T15:55:11Z (GMT). No. of bitstreams: 1 SARA REGINA MIRANDA RUFINO - TESE PPGEP 2014..pdf: 3286437 bytes, checksum: cfafef220e2b9de314c5df81f2286b36 (MD5) Previous issue date: 2014-08-28 / A agricultura familiar, com base agroecológica, tem estimulado mudanças significativas na vida de famílias de agricultores familiares, seja no manejo do solo, na relação com o meio ambiente, hábitos alimentares, segurança alimentar, ou mesmo autonomia produtiva. Nesta perspectiva, avaliar a qualidade do solo dentro de sistemas em transição agroecológica (convencional para agroecológico), pode proporcionar melhor compreensão sobre seus efeitos deste sistema de cultivo do solo. Na busca da sustentabilidade de sistemas agrícolas o uso de indicadores no monitoramento das condições do solo constitui-se numa importante ferramenta para a tomada de decisões na condução das produções. O objetivo deste trabalho foi comparar propriedades físicas, químicas, bioquímicas, microbiológicas e termogravimétricas de solos de mesorregiões do agreste da Paraíba em transição agroecológica. O presente estudo foi desenvolvido na Mesorregião do Agreste-Brejo da Paraíba. Foram coletados solos em propriedades de agricultores familiares sob sistema de cultivo agroecológico e convencional, os quais foram submetidos a diferentes indicadores de sustentabilidade do solo. Os indicadores químicos nitrogênio, matéria orgânica leve, carbono orgânico total e matéria orgânica, apresentaram maior correlação e sensibilidade quanto a sua utilização de indicadores da qualidade de solos em transição agroecológica. A termogravimetria apresentou potencialidade na identificação dos solos com relação ao teor de matéria orgânica de solo agrícola. / A family farm with agroecological base, has spurred significant changes in the lives of farming families, either in soil management in relation to the environment, eating habits, food security, or even productive autonomy. In this perspective, assessing soil quality within systems (for conventional agroecological) agroecological transition may provide better understanding of the effects of this system of cultivation. In search of the sustainability of agricultural systems, using indicators in the monitoring of soil conditions constitutes an important tool for decision making in the conduct of productions. The objective of this study was to compare physical, chemical, biochemical, microbiological and thermogravimetric soils of the rough mesoregions of Paraíba in agroecological transition properties. This study was developed in Meso - Heath of the Wasteland Paraíba. Soil samples were collected on properties of farmers in agro-ecological and conventional cropping system, which were subjected to different indicators of soil sustainability. Chemical indicators nitrogen, light organic matter, total organic carbon and organic matter showed higher correlation and sensitivity as the use of soil quality indicators in agro-ecological transition. Thermogravimetry showed potential in the identification of soils in relation to organic matter content of agricultural soil. Engenharia de processos Pedologia Qualidade do solo Indicadores da qualidade do solo Pedologia propriedades físicas do solo propriedades químicas do solo Propriedades bioquímicas do solo Propriedades microbiológicas do solo Propriedades termogravimétricas do solo Agreste da Paraíba - solo. Indicators of soil quality Agroecological transition Soil physical properties Chemical properties of soil Biochemical properties of soil Microbiological properties of soil Thermogravimetric properties of soil Indicadores de sustentabilidade do solo
108	Akzeptorsubstituierte Oligothiophene und Fluorene für die Anwendung in organischen Solarzellen Wrackmeyer, Marion Sofia 08 July 2011 (has links) In der vorliegenden Arbeit wurden Thiophenoligomere nach dem Konzept Akzeptor – Donator – Akzeptor (A-D-A) und Donator – Akzeptor – Donator (D-A-D) synthetisiert und umfassend charakterisiert. Oligothiophene unterschiedlicher Kettenlänge stellen dabei den Donatoranteil des Moleküls dar, während 2,2-Dicyanovinyle (DCV), 1,3,2-2H-Dioxaborine (DOB), 2,1,3-Benzothiadiazole (BTDA) die Akzeptorstruktur im Molekül repräsentieren. Diese Materialien sollen als Absorber in der intrinsischen Schicht von organischen Solarzellen (OSC) eingesetzt werden. Zusätzliche Untersuchungen an DOB-substituierten Fluorenen, die als Elektronentransportmaterialien in der n-Schicht von OSC Anwendung finden sollten, erwiesen sich in diesem Fall nicht als vielversprechend. Alle untersuchten Verbindungen wurden, abhängig von ihrer Löslichkeit bzw. Verdampfbarkeit im Vakuum, durch Absorption in Lösung und im dünnen Film, durch Cyclovoltammetrie (CV) und durch DFT-Rechnung charakterisiert. Die thermische Stabilität wurde durch TG/DTA-Messungen untersucht. Die Ladungsträgerbeweglichkeit der DCV-Verbindungen wurde in organischen Feldeffekttransistoren untersucht, sowie Solarzellen mit verschiedenen Schichtdicken der Quinquethiophenverbindung DCV2-5T als Donatormaterial der intrinsischen Schicht angefertigt. Eine gezielte Modifikation der Verbindungen durch Wahl des Akzeptors und die Länge des aromatischen Systems ermöglichte die Synthese von Molekülen mit abstimmbaren Eigenschaften. Eine bathochrome Verschiebung des Absorptionsmaximums kann durch eine Vergrößerung des π-Systems erreicht werden. CV-Messungen und DFT-Rechnungen zeigen, dass E(LUMO) maßgeblich vom Akzeptor bestimmt wird, während E(HOMO) mehr durch den Donatorteil des Moleküls beeinflusst wird. Diese Eigenschaften sind unabhängig vom Aufbau (A-D-A oder D-A-D) der Verbindungen. Bezüglich der thermischen Stabilität sind die D-A-D – Verbindungen gegenüber den A-D-A – Verbindungen zu favorisieren. Ein weiterer wichtiger Schlüsselpunkt der Arbeit ist die Erkenntnis, dass die bisher verwendeten Alkylketten am Rückgrat des Oligothiophens die Löcherbeweglichkeit der Verbindungen stark herabsetzen. Zwei Solarzellen in einer m-i-p– Anordnung (Metall – intrinsisch – p-dotiert) erreichen mit dem DCV2-5T (Schichtdicke 6 bzw. 10 nm) als Donatormaterial eine Effizienz von 2.8 %. Die Zellen zeichnen sich durch einen hohen Füllfaktor (bis zu 58 %) aus und erreichen eine Leerlaufspannung von bis zu 1.03 V. Die Interpretation der J-V-Kennlinien führt zu der Annahme, dass die Exzitonendiffusionslänge kürzer als 10 nm ist, weswegen es bei einer höheren Schichtdicke des Thiophens zu einer Rekombination der erzeugten Exzitonen kommt.:Abstract 1 Kurzfassung 2 Tagungsbeiträge und Veröffentlichungen 3 1 Einleitung und Problemstellung 5 2 Physikalische Grundlagen 9 2.1 Organische Halbleiter 9 2.2 Aufbau und Funktionsweise organischer Solarzellen 11 2.3 Wichtige Parameter zur Charakterisierung organischer Solarzellen 16 2.4 Messmethoden zur Bestimmung der Grenzorbitale 17 2.4.1 Cyclovoltammetrie (CV) 17 2.4.2 DFT-Rechnungen 22 3 Motivation 25 4 Bisheriger Kenntnisstand 29 4.1 Absorbermaterialien der intrinsischen Schicht 29 4.1.1 Phthalocyanine (MPc (M = Zn, Cu)) 29 4.1.2 Oligothiophene 31 4.1.3 Fulleren C60 33 4.2 n-Leiter 35 4.2.1 Fulleren C60 (dotiert) 35 4.2.2 Bathophenanthrolin (BPhen) und Bathocuproin (BCP) 36 4.2.3 Transparenter n-Leiter: Naphthalentetracarboxyl Dianhydrid (NTCDA) 38 4.3 „Bandgap engineering“ – Zusammenspiel zwischen Donator und Akzeptor 39 4.3.1 Dicyanovinyle 41 4.3.2 1,3,2-(2H)-Dioxaborine 41 4.3.3 2,1,3-Benzothiadiazole 43 4.4 Thiophene 44 4.4.1 Ringaufbauende Reaktionen 44 4.4.2 Substitutionsmöglichkeiten am Thiophen 47 4.4.3 Übergangsmetallkatalysierte Kupplungsreaktionen zum Aufbau von Oligothiophenketten 48 4.5 Fluorene 49 5 Ergebnisse und Diskussion 51 5.1 Akzeptorsubstituierte Oligothiophene 51 5.1.1 Akzeptor-Donator-Akzeptor-Strukturen 51 5.1.1 Donator-Akzeptor-Donator-Strukturen 57 5.2 Fluorene 64 5.3 Unsymmetrische Donator-Akzeptor-Verbindungen mit neuen Akzeptoren – Ausgangspunkt für zukünftige Forschung 65 5.4 Auswertung und Vergleich physikalischer Messungen 66 5.4.1 Absorptionsmessungen in Lösung und im Film 66 5.4.2 Ergebnisse aus Cyclovoltammetrie-Messungen 75 5.4.3 Ergebnisse aus DFT-Rechnungen 85 5.4.4 Thermogravimetrie und Differentialthermoanalyse-Messungen 91 5.4.5 Beweglichkeitsmessungen 104 5.4.6 Eintragung der erhaltenen Ergebnisse ins Spinnennetzdiagramm und ihre Bewertung 107 5.4.7 Solarzelle mit DCV2-5T 116 6 Zusammenfassung und Ausblick 121 6.1 Zusammenfassung 121 6.2 Ausblick 123 7 Experimenteller Teil 125 7.1 Allgemeine Angaben 125 7.2 Synthese und Charakterisierung der akzeptorsubstituierten Oligomere 128 7.3 Synthese und Charakterisierung der Fluorenverbindungen 160 7.4 Synthese und Charakterisierung unsymmetrischer Donator-Akzeptor-Verbindungen mit neuen Akzeptoren 167 8 Anhang 173 8.1 Abkürzungs- und Trivialnamenverzeichnis 173 8.2 Literaturverzeichnis 176 Danksagung 181 Versicherung 183 / The present thesis deals with thiophene oligomers according to the concept acceptor-donor-acceptor (A-D-A) or donor-acceptor-donor (D-A-D). Thiophenes represent the donor-part of the molecule whereas the acceptor-part can either be 2,2-dicyanovinyle (DCV), 1,3,2-2H-dioxaborine (DOB) or 2,1,3-benzothiadiazole (BTDA). These materials are supposed to work as absorbers in the intrinsic layer of an organic small molecular solar cell (OSC). Additional studies on substituted fluorenes, however, known to work as electron transport material in the n-layer of OSC, have not proved promising in this case. Depending on their solubility in organic solvents or their suitability for vacuum sublimation, all compounds were characterised by absorption measurements in solution and thin film, cyclic voltammetry (CV) and DFT-calculations. The thermal stability was determined by thermal analysis. Charge carrier mobility measurements using organic field effect transistors were applied to investigate the DCV-compounds. The quinquethiophene DCV2-5T was used in varying thicknesses as a donor material in the intrinsic absorbing layer of an OSC. Systematic variation of the compounds by applying different accepting groups and/or modifying the lengths of the aromatic systems permitted the synthesis of molecules with tunable properties. A bathochromic shift of the absorption maximum can be achieved by increasing the number of thiophene units. CV measurements and DFT calculations reveal a dependency of E(LUMO) on the accepting group whereas E(HOMO) is more influenced by the donor part of the molecule. These properties are independent from the concept A-D-A or D-A-D. Concerning thermal stability, D-A-D compounds seem to be more stable than A-D-A materials. Another important point is the knowledge that alkyl chains used so far at the backbone of the oligothiophene chain significantly decrease the hole mobility. Two OSCs arranged in an m-i-p-stack (metal – intrinsic – p-doped) with the quinquethiophene DCV2-5T (layer thickness 6 and 10 nm) both reach an efficiency of 2.8 %. They show a high fillfactor (up to 58 %) and reach an open circuit voltage of 1.03 V. Interpretation of the other parameters leads to the assumption that the exciton diffusion length of the molecule is shorter than 10 nm. This results in a recombination of the excitons in the cell with the thicker layer of DCV2-5T.:Abstract 1 Kurzfassung 2 Tagungsbeiträge und Veröffentlichungen 3 1 Einleitung und Problemstellung 5 2 Physikalische Grundlagen 9 2.1 Organische Halbleiter 9 2.2 Aufbau und Funktionsweise organischer Solarzellen 11 2.3 Wichtige Parameter zur Charakterisierung organischer Solarzellen 16 2.4 Messmethoden zur Bestimmung der Grenzorbitale 17 2.4.1 Cyclovoltammetrie (CV) 17 2.4.2 DFT-Rechnungen 22 3 Motivation 25 4 Bisheriger Kenntnisstand 29 4.1 Absorbermaterialien der intrinsischen Schicht 29 4.1.1 Phthalocyanine (MPc (M = Zn, Cu)) 29 4.1.2 Oligothiophene 31 4.1.3 Fulleren C60 33 4.2 n-Leiter 35 4.2.1 Fulleren C60 (dotiert) 35 4.2.2 Bathophenanthrolin (BPhen) und Bathocuproin (BCP) 36 4.2.3 Transparenter n-Leiter: Naphthalentetracarboxyl Dianhydrid (NTCDA) 38 4.3 „Bandgap engineering“ – Zusammenspiel zwischen Donator und Akzeptor 39 4.3.1 Dicyanovinyle 41 4.3.2 1,3,2-(2H)-Dioxaborine 41 4.3.3 2,1,3-Benzothiadiazole 43 4.4 Thiophene 44 4.4.1 Ringaufbauende Reaktionen 44 4.4.2 Substitutionsmöglichkeiten am Thiophen 47 4.4.3 Übergangsmetallkatalysierte Kupplungsreaktionen zum Aufbau von Oligothiophenketten 48 4.5 Fluorene 49 5 Ergebnisse und Diskussion 51 5.1 Akzeptorsubstituierte Oligothiophene 51 5.1.1 Akzeptor-Donator-Akzeptor-Strukturen 51 5.1.1 Donator-Akzeptor-Donator-Strukturen 57 5.2 Fluorene 64 5.3 Unsymmetrische Donator-Akzeptor-Verbindungen mit neuen Akzeptoren – Ausgangspunkt für zukünftige Forschung 65 5.4 Auswertung und Vergleich physikalischer Messungen 66 5.4.1 Absorptionsmessungen in Lösung und im Film 66 5.4.2 Ergebnisse aus Cyclovoltammetrie-Messungen 75 5.4.3 Ergebnisse aus DFT-Rechnungen 85 5.4.4 Thermogravimetrie und Differentialthermoanalyse-Messungen 91 5.4.5 Beweglichkeitsmessungen 104 5.4.6 Eintragung der erhaltenen Ergebnisse ins Spinnennetzdiagramm und ihre Bewertung 107 5.4.7 Solarzelle mit DCV2-5T 116 6 Zusammenfassung und Ausblick 121 6.1 Zusammenfassung 121 6.2 Ausblick 123 7 Experimenteller Teil 125 7.1 Allgemeine Angaben 125 7.2 Synthese und Charakterisierung der akzeptorsubstituierten Oligomere 128 7.3 Synthese und Charakterisierung der Fluorenverbindungen 160 7.4 Synthese und Charakterisierung unsymmetrischer Donator-Akzeptor-Verbindungen mit neuen Akzeptoren 167 8 Anhang 173 8.1 Abkürzungs- und Trivialnamenverzeichnis 173 8.2 Literaturverzeichnis 176 Danksagung 181 Versicherung 183 info:eu-repo/classification/ddc/530 ddc:530
109	On Ternary Phases of the Systems RE–B–Q (RE = La – Nd, Sm, Gd – Lu, Y; Q = S, Se) Borna, Marija 13 August 2012 (has links) It is known that boron containing compounds exhibit interesting chemical and physical properties. In the past 50 years modern preparative methods have led to an overwhelming number of different structures of novel and often unexpected boron–sulfur and boron–selenium compounds. Among all these new compounds, there was only one which comprises rare earth metal (RE), boron and heavier chalcogen, namely sulfur, the europium thioborate Eu[B2S4] [1]. Selenoborates of rare earth metals are hitherto unknown. On the other hand, rare earth oxoborates represent a well-known class of compounds [2] with a wide range of applications, especially in the field of optical materials. In addition, well-defined boron compounds containing the heavier group 16 elements are fairly difficult to prepare due to the high reactivity of in situ formed boron chalcogenides towards most container materials at elevated temperatures. The chalcogenoborates of the heavier chalcogens are sensitive against oxidation and hydrolysis and therefore have to be handled in an inert environment. Therefore, developing and optimization of preparative routes for the syntheses of pure and crystalline RE thio- and selenoborates was needed. In the course of this study, the application of different preparation routes, such as optimized high-temperature routes (HT), metathesis reactions and high-pressure high-temperature routes (Hp – HT), led to sixteen new rare earth thioborates. Their crystal structures were solved and/or refined from powder and single crystal X-ray diffraction data, while the local structure around rare earth metal was confirmed from the results of the EXAFS analyses. Quantum mechanical calculations were used within this work in order to investigate the arrangement of intrinsic vacancies on the boron sites in the crystal structures of rare earth thioborates. Thermal, magnetic and optical properties of these compounds are also discussed. The rare earth thioborates discovered during this work are the first examples of ternary thioborates containing trivalent cations. These compounds can be divided into two groups of isotypic compounds: the rare earth orthothioborates with general formula REIII[BS3] (RE = La – Nd, Sm, Gd and Tb) [3] and the rare earth thioborate sulfides with general formula REIII¦9B5S21, (RE = Gd – Lu, and Y) [4]. In the crystal structure of RE[BS3] (orthorhombic, space group Pna21, Z = 4), the sulfur atoms form the vertices of corrugated kagome nets, within which every second triangle is occupied by boron and the large hexagons are centered by RE cations. The structural features of the isotypic RE[BS3] phases show great similarities to those of rare earth oxoborates RE[BO3] and orthothioborates of alkali and alkaline earth metals as well as to thallium orthothioborate, yet pronounced differences are also observed: the [BS3]3– groups in the crystal structures of RE[BS3] are more distorted, where the distortion decreases with the decreasing size of the RE element, and the coordination environments of the [BS3]3– groups in the crystal structures of RE[BS3] are different in comparison with the coordination environments of the [BO3]3– groups in the crystal structures of λ-Nd[BO3] [5] and of o-Ce[BO3] [6]. The results of the IR and Raman investigations are in agreement with the presence of [BS3]3– anions in the crystal structure of RE[BS3]. Thermal analyses revealed the thermal stability of these compounds under inert conditions up to ~ 1200 K. Analyses of the magnetic properties of the Sm, Gd and Tb thioborates showed that both Gd and Tb phases order antiferromagnetically. The magnetic susceptibility for Sm orthothioborate approximately follows the Van-Vleck theory for Sm3+. Between 50 K and 62 K a transition appears which is independent of the magnetic field: the magnetic susceptibility becomes lower. This effect might indicate a discontinuous valence transition of Sm which was further investigated by means of XANES and X-ray diffraction using synchrotron radiation, both at low temperatures. The series of isotypic RE thioborate sulfides with composition RE9B5S21, was obtained by the application of Hp – HT conditions to starting mixtures with the initial chemical composition “REB3S6“, after careful optimization of the pressure, temperature and treatment time, as well as the composition of the starting mixtures. Their crystal structures adopt the Ce6Al3.33S14 [7] structure type (hexagonal, space group P63, Z = 2/3). The special features of the RE9B5S21 crystal structures, concerning boron site occupancies and different coordination environments of the two crystallographically independent boron sites, were investigated in more detail by means of quantum chemical calculations, electron diffraction methods, optical and X-ray absorption spectroscopy as well as by 11B NMR spectroscopy. The results obtained from these different experimental and computational methods are in good mutual agreement. The crystal structures of the RE9B5S21 compounds are characterized by two types of anions: tetrahedral [BS4]5– and trigonal planar [BS3]3– as well as [(S2–)3] units. Isolated [BS4]5– tetrahedra (all pointing with one of their apices along the polar [001] direction) represent a unique feature of the crystal structure which is observed for the first time in a thioborate compound. These tetrahedra are stacked along the three-fold rotation axes. Vacancies are located at the trigonal-planar coordinated boron site with preferred ordering –B–B––B–B–– along [001]. No superstructure is observed by means of electron diffraction methods as adjacent columns are shuffled along the c axis, giving rise to a randomly distributed vacancy pattern. Positions of the sulfur atoms within the [(S2–)3] substructure as well as planarity of the [BS3]3– units were investigated in more detail by means of quantum mechanical calculations. Results of the IR and Raman spectroscopy, as well as of the 11B NMR spectroscopy are in agreement with the presence of the boron atoms in two different coordination environments. Thermal analyses showed that compounds RE9B5S21 are stable under inert conditions up to ~ 1200 K. In accordance with the combined results of experimental and computational investigations, the chemical formula of the RE9B5S21 compounds is consistent with RE3[BS3]2[BS4]3S3. A short overview of investigations towards rare earth selenoborates, where in most of the cases only known binary rare earth selenides could be identified, is presented as well in this work. Investigations in the RE–B–Se systems were conducted by the application of different preparation routes by varying the experimental parameters and the initial compositions of the starting mixtures. Although no crystal structure of a ternary phase in these systems could be solved, there are indications that such phases exist, but further investigations are needed. [1] M. Döch, A. Hammerschmidt, B. Krebs, Z. Anorg. Allg. Chem., 2004, 630, 519. [2] H. Huppertz, Chem. Commun., 2011, 47, 131; and references therein. [3] J. Hunger, M. Borna, R. Kniep, J. Solid State Chem., 2010, 182, 702; J. Hunger, M. Borna, R. Kniep, Z. Kristallogr. NCS, 2010, 225, 217; M. Borna, J. Hunger, R. Kniep, Z. Kristallogr. NCS, 2010, 225, 223; M. Borna, J. Hunger, R. Kniep, Z. Kristallogr. NCS, 2010, 225, 225. [4] M. Borna, J. Hunger, A. Ormeci, D. Zahn, U. Burkhardt, W. Carrillo-Cabrera, R. Cardoso-Gil, R. Kniep, J. Solid State Chem., 2011, 184, 296; [5] H. Müller-Bunz, T. Nikelski, Th. Schleid, Z. Naturforsch. B, 2003, 58, 375. [6] H. U. Bambauer, J. Weidelt, J.-St. Ysker, Z. Kristallogr., 1969, 130, 207. [7] D. de Saint-Giniez, P. Laruelle, J. Flahaut, C. R. Séances, Acad. Sci. Ser. C, 1968, 267, 1029.:I INTRODUCTION ......................................................................... 7 1. Motivation and scope of the work .............................................. 9 2. Literature overview .................................................................. 11 2.1. The binary subsystems of the ternary systems RE–B–Q (RE = rare earth metals, Y; Q = S, Se) ......................................................... 12 2.1.1. RE–Q ............................................................................... 12 2.1.2. RE–B ............................................................................... 19 2.1.3. B–Q ................................................................................. 22 2.2. Related ternary compounds ................................................... 25 2.2.1. RE oxoborates .................................................................. 25 2.2.2. Thio- and selenoborates of alkaline, alkaline earth, transition and post transition metals ......................................................................... 33 2.2.3. The RE thioborate Eu[B2S4]................................................ 45 II PREPARATIVE METHODS AND EXPERIMENTAL TECHNIQUES .......... 47 1. Starting materials and their characterization ............................... 49 2. Synthetic approaches and optimizations .................................... 51 2.1. High-temperature routes ...................................................... 52 2.2. Metathesis reactions ............................................................ 53 2.3. Spark Plasma Sintering (SPS) ............................................... 54 2.4. High-Pressure High-Temperature (Hp – HT) Syntheses ........... 55 3. Analytical methods and samples characterization ....................... 55 3.1. Powder X-ray diffraction ...................................................... 55 3.2. Crystal structure investigations using synchrotron radiation .... 57 3.3. Single crystal X-ray diffraction analysis .................................. 57 3.4. Metallographic investigations ................................................ 58 3.5. Electron microscopy ............................................................ 58 3.5.1. Scanning electron microscopy and energy dispersive X-ray spectroscopy ............................................................................ 58 3.5.2. Transmission electron microscopy ...................................... 59 3.6. Optical spectroscopy ........................................................... 59 3.6.1. Infra-Red spectroscopy .................................................... 59 3.6.2. Raman spectroscopy ........................................................ 60 3.7. X-ray absorption spectroscopy ............................................ 60 3.8. Thermal analysis ................................................................. 62 3.9. Magnetic susceptibility measurements ................................... 63 3.10. 11B NMR spectroscopy ..................................................... 63 3.11. Quantum chemical calculations ........................................... 64 3.11.1. Total energy calculations ................................................ 64 3.11.2. Charge transfer analysis ................................................ 64 3.11.3. Chemical bonding........................................................... 64 III RARE EARTH THIOBORATES ................................................. 67 1. Reinvestigation of the only reported rare earth thioborate – EuB2S4 ....69 2. RE[BS3] (RE = La – Nd, Sm, Gd, Tb) .................................... 69 2.1. Syntheses and phase analyses .......................................... 70 2.2. Crystal structure determinations ........................................ 74 2.3. X-ray absorption spectroscopy: EXAFS data analysis for Pr[BS3] ..... 79 2.4. Crystal chemistry .............................................................. 80 2.5. Optical spectroscopy ......................................................... 83 2.6. Thermal analysis ............................................................... 86 2.7. Magnetic susceptibility ....................................................... 88 2.8. X-ray absorption spectroscopy: XANES data analysis for Sm[BS3] .. 91 2.9. Crystal structure investigation at low temperature using synchrotron radiation ................................................................................... 91 2.10. Summary ......................................................................... 95 3. Gd[BS3] : Ce, Eu, Tb ............................................................. 97 3.1. Syntheses and phase analyses ............................................. 97 3.2. Crystal structure determinations ......................................... 101 3.3. Crystal chemistry .............................................................. 103 3.4. Optical spectroscopy ......................................................... 104 3.5. Thermal analysis ............................................................... 106 3.6. Summary ......................................................................... 107 4. RE9B5S21 (RE = Tb – Lu, Y) ................................................ 107 4.1. Syntheses and phase analyses ........................................... 108 4.2. Crystal structure determinations ........................................ 109 4.3. Crystal chemistry .............................................................. 112 4.4. Electronic structure, charge transfer and chemical bonding .... 115 4.5. X-ray absorption spectroscopy: EXAFS data analysis for Lu9B5S21 .............................................................................. 119 4.6. Thermal analysis ............................................................... 121 4.7. 11B NMR investigations ..................................................... 122 4.8. Optical spectroscopy ......................................................... 123 4.9. Summary ......................................................................... 126 IV ON THE WAY TO RARE EARTH SELENOBORATES .................... 127 1. Towards ternary phases in the systems RE–B–Se, with RE = Sm, Tb – Lu.......................................................................................... 129 2. The system La–B–Se ........................................................... 134 3. The system Gd–B–Se .......................................................... 136 4. The system Y–B–Se ............................................................ 137 5. Summary ........................................................................... 139 V SUMMARY AND OUTLOOK ..................................................... 141 VI APPENDIX .......................................................................... 149 VII REFERENCES .................................................................... 163 VIII LIST OF FIGURES ............................................................. 181 IX LIST OF TABLES ................................................................ 193 X CURRICULUM VITAE ........................................................... 199 XI VERSICHERUNG ............................................................... 203 info:eu-repo/classification/ddc/540 ddc:540
110	POCN-type Pincer Complexes of NiII and NiIII : synthesis, reactivities, catalytic activities and physical properties Spasyuk, Denis M. 08 1900 (has links) No description available. Nickel (II) complexes POCN-type Nickel (III) complexes «pincer» X-ray diffraction thermogravimetric analysis olefin hydroalkoxylation differential scanning calorimetry spectroelectrochemistry C-H activation activation C-H RMN NMR voltampérométrie cyclique cyclic voltammetry hydroalkoxylation des oléfines «pincer» de type POCN diffraction des rayons-X

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