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Estudo espectrofotométrico de oxidação no sistema Ferro(II)/Tiocianato e seu aproveitamento analítico. / Spectrophotometric study of oxidation in the Iron(II)/Thiocyanate system and some analytical applications.Fernando Grine Martins 19 July 2002 (has links)
Uma das linhas mais tradicionais de trabalho na área da Química é a de formação de complexos. Em nossos laboratórios tal, estudo é realizado de modo sistemático, geralmente envolvendo pseudo-haletos e haletos com cátions de metais de transição. As intensas colorações produzidas pela maioria das reações de complexação, entre um pseudo-haleto e um metal, têm sido bastante exploradas espectrofotometricamente para a determinação individual ou a especiação do respectivo metal. A forte cor vermelha característica de complexos formados entre o ferro e o tiocianato é uma das maiores evidências da analogia existente entre os ligantes tiocianato e azoteto (N3-). A pouca sensibilidade dos complexos formados no sistema Fe3+/SCN-, em meio aquoso, dificulta a aplicação de métodos clássicos fotométricos mais rigorosos. Estudos feitos em nossos laboratórios, em presença de alguns solventes e usando ferro-II, têm mostrado uma rápida oxidação do metal, seguida por imediata complexação, o que vêm possibilitando novas estratégias para se determinar o total de ferro em uma amostra, bem como a sua especiação. Objetivando dar continuidade a linha de pesquisa, que envolve o estudo da oxidação do ferro-II, vários parâmetros que afetam a velocidade de oxidação neste sistema reacional, assim como: acidez, concentração de ligante, temperatura e presença de solvente orgânico, foram cuidadosamente verificados. Reunindo as condições ideais necessárias para o estudo de complexação utilizando íons ferrosos, sendo elas: C H+ = 30 mmolL-1 C SCN- = 250 mmolL-1 CAcetona = 70 % (v/v) T = 25ºC λmáx = 480nm tempo de espera = 7 minutos Após a sondagem espectrofotométrica do sistema, foram realizados estudos de calibração, de estabilidade, de precisão e de possíveis interferentes. A curva analítica espectrofotométrica, para a determinação de ferro total, obedece à lei de Beer (r = 0,9993), mostrando a potencialidade de aproveitamento analítico desse sistema. O valor da absortividade molar média (e) determinado foi da ordem de 2,10.104 mol-1. L.cm-1. A faixa ideal de trabalho para a determinação de ferro é de 1 a 8 ppm. Comprovou-se uma boa precisão, bem como uma constância de leituras ótima para fins analíticos. Apenas as espécies NO2-, S2032-, C2042-, HPO42-, H2PO4-, Co2+ e Cu2+ mostraram interferência significativas (Er > 5 %) no método proposto. Concluindo a aplicação analítica do método, foi realizada determinação de ferro em produtos farmacêuticos e rochas naturais. Estudos comparativos dos resultados foram feitos utilizando também a absorção atômica como medidas paralelas. Na análise dessas amostras, o estudo comparativo entre a espectrofotometria e a absorção atômica apresentou resultados concordantes, não mostrando nenhuma interferência, visto que os erros percentuais obtidos acharem-se dentro do limite analítico comumente aceitável (< 5%). Os resultados obtidos mostraram a viabilidade e potencialidade do método espectrofotométrico proposto, como um método analítico alternativo para a determinação do ferro de maneira simples, precisa e exata. / One of the most traditional lines of work in the Chemistry is about the complex formation. In our laboratories this study is accomplished under a systematic way, principally involving pseudohalide and halide ligands with cations of transition metals. The intense color produced by the reactions among the pseudohalide ligands and metal have been so much explored by spectrophotometic analises. The strong red color characteristic of compounds formed between iron(III) and thiocyanate ions is one of the largest evidences of the analogy existent between the thiocyanate and azide(N3-) ligands. Studies done in our laboratories in the presence of some solvents and using iron-II ion have showed a fast oxidation of this metal followed by immediate reaction between the pseudohalide ligand and the metal. The possibilities of new methods for determination of the total amount of iron in a sample, as well as its speciation, have been analysed. During the study of the oxidation of the iron-II, several parameters that affect the oxidation speed in this system like: acidity, ligands concentration, temperature and presence of organic solvent, were verified carefully. This way, the recommended experimental conditions for a rapid oxidation and utilizing this system (determination of total iron) are: C H+= 30 mmolL-1 C SCN-= 250 mmolL-1 CAcetone = 70 % (v/v) T = 25ºC λmáx = 480nm waiting time = 7 minutes Calibration, stability, precision and diverse ions effect studies could be done using absorbances values for the ferric complexes that are measured at 480 nm. The analytical curve for the total iron determination, obeys the Beer law (r = 0,9993), showing potentiality for the analytical use of this system. The value of the average molar absortivity is 2,10.104 mol-1.L.cm-1. The ideal range of work for the determination of iron is from 1 to 8 ppm. A good precision was verified by suitable studies. About diverse ion effects, just the species NO2-, S2032-, C2042-, HPO42-, H2PO4-, Co2+ and Cu2+ showed some interference on determination in the proposed method. Concluding the analytical application of present method, determination of iron was tested in pharmaceutical product and natural rocks. Comparative studies of the results were made also using the atomic absorption as parallel measures. In these analysis samples, the comparative study between the spectrophotometric and atomic absorption presented concordant results, not evidencing significant interferences (errors commonly acceptable, <5%). The obtained results showed the viability and potentiality of the proposed method, as an alternative analytical manner for the determination of the metal with precision and exactness.
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Generation and Succeeding Reactions of Allenyl IsothiocyanatesJawabrah Al-Hourani, Baker Salim Yacoub 06 October 2005 (has links) (PDF)
In this work, the [3,3] sigmatropic rearrangement of different substituted propargyl
thiocyanates and double [3,3] sigmatropic rearrangement of enynyl isothiocyanates either by
flash vacuum pyrolysis or by thermolysis in solution are studied.
Additionally, the intramolecular reactions of the resulting allenyl isothiocyanates are studied,
and the reaction mechanisms for the generation of the final products, such as [1,5] sigmatropic
migrations or electrocyclic ring closures, are explained.
These highly reactive allenyl isothiocyanates are used as appropriate electrophilic precursors
for the preparation of novel examples of thiazoles substituted at C-2 position using different
types of nucleophiles. For the formation of these substituted thiazoles, the necessary
nucleophilicity as well as the regioselectivity, the stereoselectivity, and the reaction
mechanisms are investigated. / In der vorliegenden Arbeit sind die [3,3]-sigmatrope Umlagerung von verschiedenen
Propargylthiocyanaten und die doppelte [3,3]-sigmatrope Umlagerung von Eninylisothiocyanaten
entweder durch Blitzvakuumthermolyse oder Thermolyse in Lösung untersucht worden.
Zusätzlich wurden die intramolekularen Reaktionen der resultierten Allenylisothiocyanate
studiert. Außerdem sind die Reaktionsmechanismen zur Bildung der Thermolyseprodukte wie
z.B. die [1,5]-sigmatropen Umlagerungen und die elektrocyclischen Ringschlüsse erklärt.
Die hochreaktiven Allenylisothiocyanate sind als geeignet elektrophile Vorläufer zur Synthese
von neuen Thiazolen verwendbar, die an der C-2 Position substituiert sind. Dabei kommen
verschiedene Nucleophile zum Ansatz. Für die Bildung dieser substituierten Thiazole sind die
Regioselektivität, Stereoselektivität, Reaktionsmechanismen und der Bereich der einsetzbaren
Nucleophile untersucht worden.
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The causation of konzo : studies on a paralytic disease in AfricaTylleskär, Thorkild January 1994 (has links)
Epidemics of a permanent, non-progressive spastic paraparesis with sudden onset hasbeen reported from several rural areas of sub-Saharan Africa. Studies in East Africasuggested an association with dietary cyanide intake from unprocessed cassava. InZaire the disease was attributed to an infectious cause as the cyanogenic glucosides inthe cassava consumed were known to be removed by traditional soaking. The aims ofthe thesis were to define the disease entity and elucidate its etiology. A communitybasedsurvey in rural Zaire identified 110 live and 24 dead cases among 6764inhabitants (16/1000). The clinical findings were identical to earlier studies and it wasdecided to name the disease konzo as in the first known report. Annual and monthlyincidence of konzo was associated with almost exclusive consumption of shortsoakedbitter cassava roots. The appearence of konzo coincided with the completionof a tarmac road from the capital, which turned cassava into the main cash crop, andinduced short-cuts in the processing. A processing experiment showed that flour fromshort-soaked roots was high in cyanogens. A higher cyanide intake in affectedcompared to un-affected populations was confirmed by much higher urinarythiocyanate levels, the main metabolite. A low urinary sulphate indicated lowavailability of sulphur, the substrate for detoxification. All three konzo patientsexamined at onset had blood cyanide levels above 4 Ilmolll, versus only 2 out of 23controls (p<O.Ol). This supports an etiological role for cyanide. An odds ratio of 11was found for short-soaking of cassava, in a multivariate logistic regression analysis ofa case referent study in Zaire, with a dose-response curve indicating higher risk ofkonzo with frequent consumption of short-soaked cassava. Serological investigationsof 33 cases in Zaire excluded retrovirus etiology for konzo. Konzo was also identifiedin low prevalence in the Central African Republic, again associated with consumptionof insufficiently processed cassava. Investigation in Sweden of two severely disabledTanzanian patients revealed normal magnetic resonance imaging but neurophysiologyshowed isolated upper motor neuron dysfunction. This is consistent with clinicalfindings and identifies konzo as a distinct disease entity. The evidence for anetiological role of high cyanide and low sulphur intake in konzo is now strongenough to urge for prevention by promotion of efficient processing of cassava roots.
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Synthesis and Antitumor Activities of Aquayamycin and Analogues of Derhodinosylurdamycin A and Synthesis of S-Linked Trisaccharide Glycal of Derhodinosylurdamycin AAcharya, Padam Prasad 18 November 2019 (has links)
No description available.
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Characterizing Heterogeneously Charged Mineral Oxide Surfaces Using Nonlinear SpectroscopyPiontek, Stefan Mathew January 2019 (has links)
Mineral oxide/aqueous interfaces play an important role in the transport of water through aquafers and streams, erosion, the formation of beaches and river deltas, nuclear waste storage, the sequestration and filtration of small ions, and are widely used in industrial scale catalysis. Unlike metal or semiconductor electrodes, the surface charge resulting from the protonation or deprotonation of insulating mineral oxides is highly localized and heterogeneous in nature. While the unique acid/base chemistry associated with different mineral oxide surfaces leads to their wide variety of applications, the extent to which surface groups found on mineral oxides partake in acid/base chemistry is still controversial due to the difficulty associated with experimentally probing them. Surface specific spectroscopic techniques, such as vibrational Sum Frequency Generation (vSFG), provide an opportunity to investigate how the surface architecture and corresponding chemical nature of various mineral oxide surfaces orient the interfacial solvent at a variety of solvent compositions and surface charges. Although vSFG has been used as a tool to measure the orientation and composition of interfacial O-H species originating from the surface and solvent for many mineral oxide/aqueous interfaces since the late 1990’s, controversy still exists in the assignment of vSFG spectra in the O-H stretching region of SiO2, Al2O3, CaF2, and TiO2/aqueous interfaces. The first section of this dissertation focuses on how the nonlinear optics and computational community’s understanding of the structure associated with mineral oxide/aqueous interfaces has evolved and where it stands now. Of particular interest is how the addition of electrolyte and variation of bulk pH allow modulation of the depth of the interfacial region and surface charge. Electrolyte solutions can vary the length of the interface by screening interfacial charges through non-specific adsorption at the interface, or generating surface charge if accumulation is facilitated by specific adsorption. The specific interaction of small ions with mineral oxide surfaces is relevant in geochemistry and filtration technology, and can also aid in prediction of contaminant mobility in ground water systems. Chapters two and three discuss the theory and application of vSFG, and the experimental setup used to capture vSFG spectra in this work, respectively. The fourth chapter investigates how monovalent or divalent cations accumulate at alpha-Al2O3(0001)/H2O interfaces and reorganize the interfacial solvent structure. The reactivity of these interfaces is strongly impacted by the presence of ions. Thus, it is critical to understand how ions alter the interfacial environment. This is achieved by measuring the changes in the structure and vibrational dynamics of interfacial water induced by the presence of ions in close vicinity to the mineral surface. The alpha-Al2O3(0001) surface represents a flexible platform to study the effect of ions on interfacial aqueous environments at positive, neutral and negative surface charge. Using vibrational sum frequency generation (vSFG) in the frequency and time domain, we investigate how monovalent and divalent cations affect the hydrogen bonding environment of the first few layers of interfacial water next to an alpha-Al2O3(0001) surface. Our results indicate that monovalent cations, such as Li+, Na+, K+, and Cs+, appear to have lower adsorption affinities for the interface compared to Ca2+, Sr2+, and Ba2+. This leads to an interfacial region that is structured in a cation valence dependent manner. Time resolved vSFG measurements reveal that the O-H vibrational lifetime (T1) of interfacial species at pH 10 conditions in the presence of NaCl and BaCl2 remains similar, but restructuring of the surface seen in steady state vSFG is manifested in the degree to which strongly hydrogen bonded species recover to their original populations post excitation. By tracking the accumulation of ions at the interface via the vSFG response, we can characterize the unique surface arrangements of interfacial water molecules induced by a range of monovalent and divalent cations at the alpha-Al2O3(0001)/water interface. In the fifth chapter the Stark active C ≡ N stretch of potassium thiocyanate is used as a molecular probe of interfacial electrostatic potential at the alpha-Al2O3(0001)/H2O interface. We confirm the presence of the thiocyanate ion in the interfacial region via reorganization of surface waters in the O-H stretching region. Changes in electrostatic potential are then tracked via Stark shifts of the vibrational frequency of the C ≡ N stretch. Our vSFG measurements show that we can simultaneously measure the SFG response of SCN- ions experiencing charged and neutral surface sites and assign a local potential of + 308 mV and -154 mV to positively and negatively charged aluminol groups, respectively. Thiocyanate anions at charged surface sites adopt similar relative orientations independent of surface charge, but adopt an opposite orientation at neutral surface sites. MD-DFT simulations of SCN- near the neutral alpha-Al2O3(0001)//H2O interface show that the vSFG response in the C ≡ N stretch region originates from a SCN-H-O-Al complex, suggesting the surface site specificity of these experiments. By tracking how this molecular probe responds to local surface charges we offer insight into the local electrostatic potential at neutral and charged surface aluminol groups. Chapter six investigates the vibrational dynamics of potassium thiocyanate at the alumina/water interface. Here, we leverage the sensitivity of the C ≡ N stretch vibrational lifetime of potassium thiocyanate to measure the local electrostatic potential at the alpha-Al2O3(0001)/H2O interface. To accomplish this, KSCN was investigated using free induction decay vSFG (FID-vSFG) and time resolved pump probe (TR-vSFG) measurements, which measure the total dephasing time and vibrational lifetime of the excited C ≡ N stretch, respectively. Our FID-vSFG spectra suggest that at all surface charges the total dephasing time of SCN- is on the order of ~300-600 fs. TR-vSFG characterizations of potassium thiocyanate report the vibrational lifetime of the excited C ≡ N stretch between ~0.5-2 ps. TR-vSFG measurements show two distinct vibrational relaxation rates, which are assigned the CN stretch and the HOH bend plus libration combination band of interfacial water. The variation in the T1 lifetime of the CN stretch with bulk pH show that changes in the SCN- net orientation measured using steady-state vSFG can be correlated to the vibrational dynamics in the interfacial region. The energy transfer to the bend plus libration combination band of water is also sensitive to the surface charge, as the lifetime of this species becomes shorter as the bulk pH is increased. Lastly, in chapter seven this thesis is summarized, and future directions of the experiments presented here are discussed. / Chemistry
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Spectroscopie Raman de complexes de fer(II) et fer(III) à transition de spinRollet, Frédéric-Guillaume 06 1900 (has links)
Les transitions de spin provoquent des changements de propriétés physiques des
complexes de métaux du bloc d les subissant, notamment de leur structure et propriétés
spectroscopiques. Ce mémoire porte sur la spectroscopie Raman de composés du fer(II) et
du fer(III), pour lesquels on induit une transition de spin par variation de la température ou
de la pression. Trois complexes de fer(II) de type FeN4(NCS)2 avec des comportements de
transition de spin différents ont été étudiés : Fe(Phen)2(NCS)2 (Phen : 1,10-Phénanthroline),
Fe(Btz)2(NCS)2 (Btz : 2,2’-bi-4,5-dihydrothiazine) et Fe(pyridine)4(NCS)2. Un décalage de
l’ordre de 50 cm-1 est observable pour la fréquence d’étirement C-N du ligand thiocyanate
des complexes FeN4(NCS)2, lors de la transition de spin induite par variation de la
température ou de la pression. Il est possible d’utiliser cette variation de fréquence afin de
tracer un profil de transition. Quatre complexes isomères de type FeL222(CN)2 (L222 : 2,13-
diméthyl-6,9-dioxa-3,12,18-triazabicyclo[12.3.1]-octadéca-1(18),2,12,14,16-pentaène) ont
également été étudiés. Un taux de décalage de l’ordre d’environ 0,03 cm-1/K est observé
pour plusieurs bandes du complexe FeL222(CN)2. La bande à 1415 cm-1 disparaît à plus
haute température au profit d’une bande à 1400 cm-1. Pour le complexe de chiralité R,R’,
les bandes à 1008 cm-1 et 1140 cm-1 se déplacent vers des fréquences plus élevées à partir
de 223 K. Les transitions de spin sont observées dans certains complexes de fer(III). Dans
cette famille de composés, le complexe Fe(EtDTC)3 (EtDTC : N,N-diéthyldithiocarbamate)
a été étudié . Aucun changement n’a été observé dans l’intensité des bandes d’étirement
fer-soufre sur les spectres à température variable. Cependant, la bande Fe-S associée à la
forme bas-spin à 530 cm-1 augmente en intensité au profit de la bande associée à la forme
haut-spin à 350 cm-1 lors des mesures à haute pression, passant d’un rapport d’amplitude de
50% à pression ambiante à 80% à 21 kbar. Un dédoublement de la bande d’étirement C-N
du ligand dithiocarbamate à 1495 cm-1 est également observé à des pressions supérieures à
5 kbar. Une comparaison des changements des fréquences de vibration de tous les
complexes est effectuée. / AbstractSpin crossover processes lead to significant changes of molecular structures and spectroscopic properties measured for complexes of d-block transition metals. This thesis focuses on vibrational Raman spectroscopy of iron(II) and iron(III) compounds with spin
transitions induced through temperature and pressure variations. Three iron(II) complexes
of type FeN4(NCS)2 with different spin transition patterns have been studied:
Fe(Phen)2(NCS)2 (Phen : 1,10-Phenanthroline), Fe(Btz)2(NCS)2 (Btz : 2,2’-bi-4,5-
dihydrothiazine) and Fe(pyridine)4(NCS)2. A 50 cm-1 shift has been found for the C-N
stretching frequency of the thiocyanate ligand in these compounds as a consequence of the
spin transition induced by temperature or pressure. These frequency variations have been
used to trace different transition profiles. Four different isomers of FeL222(CN)2 (L222 :
[2,13-dimethyl-6,9-dioxa-3,12,18-triazabicyclo[12.3.1]-octadeca-1(18),2,12,14,16-
pentaene]) type complexes have also been studied. A variation with temperature of
approximately 0,03 cm-1/K has been observed for a few bands for the FeL222(CN)2
complex. A band at 1415 cm-1 decreases in intensity in favour of a band at 1400 cm-1 as
temperature rises. The bands at 1008 cm-1 and 1140 cm-1 for the complex of R,R’
configuration shift to higher frequencies around 223 K. Spin transitions have also been
investigated in some iron(III) complexes. In this family of compounds, the Fe(EtDTC)3
(EtDTC : N,N-diéthyldithiocarbamate) complex has been studied. No change has been
observed in the intensity of the iron-sulphur stretching bands in spectra measured at
variable temperature. However, at high pressure the low-spin Fe-S band at 530 cm-1 gains
intensity compared to the high spin band at 350 cm-1. A splitting of the C-N stretching band
of the dithiocarbamate ligand at 1495 cm-1 is observed at pressures above 5 kbar. A
comparison of all changes in vibrational spectra is presented.
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Nanoparticules pour la réalisation de couches de transport de trous appliquées au photovoltaïque organique / Nanoparticles for application as a hole transporting layer in organic photovoltaicsBottois, Clément 22 April 2015 (has links)
Dans les cellules photovoltaïques organiques, le matériau utilisé pour le transport de trous entre la couche active et l'électrode, est généralement un polymère dopé, dont la stabilité peut être problématique. L'objectif de cette thèse a été de développer des matériaux inorganiques, a priori plus stables, pour remplacer les couches de polymères de transport de trous, tout en restant compatible avec les méthodes de dépôts par voie liquide. L'utilisation de nanoparticules dispersées en solution a été choisie car cela permet le dépôt à basse température, sans nécessité de conversion vers une couche fonctionnelle, contrairement aux voies sol-gel. Le premier objectif de ce travail a donc été l'obtention de nanoparticules d'oxyde de tungstène, hydraté ou non, et de thiocyanate de cuivre. Une synthèse de chauffage assisté par micro-ondes a été utilisée pour l'oxyde de tungstène, permettant d'obtenir des nanoparticules de 30 nm et monodisperses. Pour le thiocyanate de cuivre, il a été choisi de travailler par broyage. Les paramètres du broyage ont été optimisés pour obtenir des particules avec la plus faible distribution en taille possible. Le dépôt de ces dispersions de nanoparticules a permis l'obtention de couches minces et la caractérisation de leurs propriétés optoélectroniques, et notamment du travail de sortie, qui s'est révélé adapté pour une utilisation en dispositif. Des cellules solaires organiques de structures standard et inverse incorporant ces matériaux ont ensuite été réalisées. De bonnes performances ont été obtenues avec une couche active à base de P3HT, notamment en structure inverse où la possibilité d'utiliser le thiocyanate de cuivre a été démontrée pour la première fois. Le suivi des performances sous éclairement et atmosphère contrôlée a également été effectué et a montré un vieillissement rapide pour ces cellules comparées aux cellules de référence à couche de transport de trous polymère. / In organic solar cells, a doped polymer is the most used material for hole transport between the active layer and the electrode, but his stability can be an important issue. The goal of this PhD thesis was to develop inorganic materials, expected to be more stable, in order to replace polymer based hole transporting layers. Another requirement was to keep the compatibility with solution-based deposition methods. The target was to develop nanoparticle dispersions, deposited at low temperature and giving directly a functional layer, without the need of further treatments which are usually required via sol-gel processes. A first objective of the present work was thus the elaboration of nanoparticles of tungsten oxide, hydrated or non-hydrated, and copper thiocyanate. A microwave-assisted heating synthesis has been used for tungsten oxide, leading to mono-dispersed particles around 30 nm. Concerning copper thiocyanate, a ball milling technique has been chosen. The process parameters have been optimized to obtain nanoparticles to narrow the size distribution as much as possible. The deposition of the nanoparticles has allowed the formation of thin layers and the characterization of their optoelectronic properties, such as work function, which was shown to be a relevant parameter for a use in devices. Organic solar cells with standard or inverted structures have been fabricated using these materials as a hole transporting layer. Good photovoltaic performances have been obtained, especially in the inverted structure, in which the possibility to use copper thiocyanate has been demonstrated for the first time. Ageing experiments under light in a controlled atmosphere have also been carried out and have shown a rapid drop in performances for these cells compared to cells incorporating polymer based hole transport layers.
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Spectroscopie Raman de complexes de fer(II) et fer(III) à transition de spinRollet, Frédéric-Guillaume 06 1900 (has links)
Les transitions de spin provoquent des changements de propriétés physiques des
complexes de métaux du bloc d les subissant, notamment de leur structure et propriétés
spectroscopiques. Ce mémoire porte sur la spectroscopie Raman de composés du fer(II) et
du fer(III), pour lesquels on induit une transition de spin par variation de la température ou
de la pression. Trois complexes de fer(II) de type FeN4(NCS)2 avec des comportements de
transition de spin différents ont été étudiés : Fe(Phen)2(NCS)2 (Phen : 1,10-Phénanthroline),
Fe(Btz)2(NCS)2 (Btz : 2,2’-bi-4,5-dihydrothiazine) et Fe(pyridine)4(NCS)2. Un décalage de
l’ordre de 50 cm-1 est observable pour la fréquence d’étirement C-N du ligand thiocyanate
des complexes FeN4(NCS)2, lors de la transition de spin induite par variation de la
température ou de la pression. Il est possible d’utiliser cette variation de fréquence afin de
tracer un profil de transition. Quatre complexes isomères de type FeL222(CN)2 (L222 : 2,13-
diméthyl-6,9-dioxa-3,12,18-triazabicyclo[12.3.1]-octadéca-1(18),2,12,14,16-pentaène) ont
également été étudiés. Un taux de décalage de l’ordre d’environ 0,03 cm-1/K est observé
pour plusieurs bandes du complexe FeL222(CN)2. La bande à 1415 cm-1 disparaît à plus
haute température au profit d’une bande à 1400 cm-1. Pour le complexe de chiralité R,R’,
les bandes à 1008 cm-1 et 1140 cm-1 se déplacent vers des fréquences plus élevées à partir
de 223 K. Les transitions de spin sont observées dans certains complexes de fer(III). Dans
cette famille de composés, le complexe Fe(EtDTC)3 (EtDTC : N,N-diéthyldithiocarbamate)
a été étudié . Aucun changement n’a été observé dans l’intensité des bandes d’étirement
fer-soufre sur les spectres à température variable. Cependant, la bande Fe-S associée à la
forme bas-spin à 530 cm-1 augmente en intensité au profit de la bande associée à la forme
haut-spin à 350 cm-1 lors des mesures à haute pression, passant d’un rapport d’amplitude de
50% à pression ambiante à 80% à 21 kbar. Un dédoublement de la bande d’étirement C-N
du ligand dithiocarbamate à 1495 cm-1 est également observé à des pressions supérieures à
5 kbar. Une comparaison des changements des fréquences de vibration de tous les
complexes est effectuée. / AbstractSpin crossover processes lead to significant changes of molecular structures and spectroscopic properties measured for complexes of d-block transition metals. This thesis focuses on vibrational Raman spectroscopy of iron(II) and iron(III) compounds with spin
transitions induced through temperature and pressure variations. Three iron(II) complexes
of type FeN4(NCS)2 with different spin transition patterns have been studied:
Fe(Phen)2(NCS)2 (Phen : 1,10-Phenanthroline), Fe(Btz)2(NCS)2 (Btz : 2,2’-bi-4,5-
dihydrothiazine) and Fe(pyridine)4(NCS)2. A 50 cm-1 shift has been found for the C-N
stretching frequency of the thiocyanate ligand in these compounds as a consequence of the
spin transition induced by temperature or pressure. These frequency variations have been
used to trace different transition profiles. Four different isomers of FeL222(CN)2 (L222 :
[2,13-dimethyl-6,9-dioxa-3,12,18-triazabicyclo[12.3.1]-octadeca-1(18),2,12,14,16-
pentaene]) type complexes have also been studied. A variation with temperature of
approximately 0,03 cm-1/K has been observed for a few bands for the FeL222(CN)2
complex. A band at 1415 cm-1 decreases in intensity in favour of a band at 1400 cm-1 as
temperature rises. The bands at 1008 cm-1 and 1140 cm-1 for the complex of R,R’
configuration shift to higher frequencies around 223 K. Spin transitions have also been
investigated in some iron(III) complexes. In this family of compounds, the Fe(EtDTC)3
(EtDTC : N,N-diéthyldithiocarbamate) complex has been studied. No change has been
observed in the intensity of the iron-sulphur stretching bands in spectra measured at
variable temperature. However, at high pressure the low-spin Fe-S band at 530 cm-1 gains
intensity compared to the high spin band at 350 cm-1. A splitting of the C-N stretching band
of the dithiocarbamate ligand at 1495 cm-1 is observed at pressures above 5 kbar. A
comparison of all changes in vibrational spectra is presented.
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Generation and Succeeding Reactions of Allenyl IsothiocyanatesJawabrah Al-Hourani, Baker Salim Yacoub 05 October 2005 (has links)
In this work, the [3,3] sigmatropic rearrangement of different substituted propargyl
thiocyanates and double [3,3] sigmatropic rearrangement of enynyl isothiocyanates either by
flash vacuum pyrolysis or by thermolysis in solution are studied.
Additionally, the intramolecular reactions of the resulting allenyl isothiocyanates are studied,
and the reaction mechanisms for the generation of the final products, such as [1,5] sigmatropic
migrations or electrocyclic ring closures, are explained.
These highly reactive allenyl isothiocyanates are used as appropriate electrophilic precursors
for the preparation of novel examples of thiazoles substituted at C-2 position using different
types of nucleophiles. For the formation of these substituted thiazoles, the necessary
nucleophilicity as well as the regioselectivity, the stereoselectivity, and the reaction
mechanisms are investigated. / In der vorliegenden Arbeit sind die [3,3]-sigmatrope Umlagerung von verschiedenen
Propargylthiocyanaten und die doppelte [3,3]-sigmatrope Umlagerung von Eninylisothiocyanaten
entweder durch Blitzvakuumthermolyse oder Thermolyse in Lösung untersucht worden.
Zusätzlich wurden die intramolekularen Reaktionen der resultierten Allenylisothiocyanate
studiert. Außerdem sind die Reaktionsmechanismen zur Bildung der Thermolyseprodukte wie
z.B. die [1,5]-sigmatropen Umlagerungen und die elektrocyclischen Ringschlüsse erklärt.
Die hochreaktiven Allenylisothiocyanate sind als geeignet elektrophile Vorläufer zur Synthese
von neuen Thiazolen verwendbar, die an der C-2 Position substituiert sind. Dabei kommen
verschiedene Nucleophile zum Ansatz. Für die Bildung dieser substituierten Thiazole sind die
Regioselektivität, Stereoselektivität, Reaktionsmechanismen und der Bereich der einsetzbaren
Nucleophile untersucht worden.
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Identification and isolation of plant promoters induced by thiocyanateNasr, Zeina January 2007 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.
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