Elektrochemické generování těkavých sloučenin telluru ve spojení s atomovou absorpční spektrometrií / Electrochemical generation of tellurium volatile compounds with atomic absorption spectrometry

Labancová, Katarína

January 2020

EN The present diploma thesis deals with the electrochemical generation of volatile tellurium compounds in connection with atomic absorption spectrometry with the main goal to increase the response of the tellurium signals and thus expand the existing knowledge about this element. Tellurium is one of the heavier elements that forms less stable volatile compounds. The reason for choosing these elements was the fact that its concentration increases mainly in landfills where it is released into the environment, which can have an ecological impact and an impact on human health. In the first step, two types of electrochemical cells were constructed - a thin-film flow electrochemical cell with and without an ion exchange membrane and an apparatus with a flow injection arrangement. The choice of cell types, cathode and anode material and apparatus design was chosen based on a literature research. Attention was paid to the optimization of reaction conditions for electrochemical generation of volatile tellurium compounds, which significantly affect the efficiency of generation using a heated quartz tube atomizer. The optimized parameters were electrolyte concentration, carrier gas volume flow rate, electrolyte volume flow rate and generation current. In the second step, the effect of the temperature of the...

Tellurringe als Elektronenpaardonoren in Clusterverbindungen und Koordinationspolymeren

Günther, Anja

08 November 2011

Durch diese Arbeit konnten einerseits neuartige sowie bereits bekannte molekulare Tellurringe in Clusterverbindungen und quasi-eindimensionalen Koordinationspolymeren erhalten werden. Die Stabilisierung der zyklischen, homonuklearen Einheiten erfolgt dabei stets durch die Koordination an elektronenreiche Übergangsmetallatome, wobei die koordinierenden Telluratome gegenüber diesen als Zwei-Elektronendonoren fungieren. Die molekularen Clusterverbindungen [M(Te10)](TeX4)2(TeX3)2 (M = Rh, Ir X = Cl, Br) sowie [Ru2(Te10)](TeI4)2(TeI2)2 beinhalten eine übergangsmetallstabilisierte, neutrale Te10-Einheit, wobei jedes Übergangsmetallatom zusätzlich zwei terminale Halogenidotelluratliganden koordiniert. Im neuartigen, zehngliedrigen (Te04Te+0,54Te2)-Fragment finden sich zwei nahezu linear umgebende Telluratome, die als "Tellurbrücke", zwei gefaltete Te4-Ringe zur Vervollständigung der tricyclo[5.1.1.13;5]-Einheit koordinieren. Die Bindungssituation der nahezu linearen Te3-Sequenzen im homonuklearen Fragment sowie die [X-Te-X]-Sequenzen der Halogenidotelluratliganden lassen sich mit 3c4e-Bindungen verstehen. Anhand quantenchemischer Rechnungen konnte die Mehrzentrenbindung sowie die Aussage eines übergangsmetallstabilisierten Fragments bestätigt werden. In den inkommensurabel modulierten Kristallstrukturen (M2Te14I12)(TeI4) Te2I2) (M = Rh, Ir) existieren hingegen zweifach positiv geladene (M2Te14I12)2+-Cluster (M = Rh, Ir) neben nahezu planaren Schichten bestehend aus (TeI4)2--Gruppen und (Te2I2) Molekülen. Das (Te+I2I2) Molekül konnte anhand quantenchemischer Rechnungen als stabiles Molekül in der Gasphase bestätigt werden und stellt ein schweres Homologes des S2Cl2 dar. Die quaternäre Verbindung (Ir2Te14Br12)2(InBr4)2 enthält ebenfalls einen zweifach positiv geladenen Cluster, {[Ir3+2(Te0)4(Te+0,5)4(Te-)2]Te2+2Br-6)2}2+, dessen Ladung durch zwei einfach negativ geladene (In3+Br4)--Gruppen ausgeglichen wird sowie einem neutralen Cluster, [Ir3+2(Te0)4(Te3.-)2](Te2+2Br-6)2, mit einem Te3.--Radikalanion, dessen Existenz mittels ESR-Spektroskopie nachgewiesen wurde. Die aus diskreten Molekülen aufgebaute Verbindung [Ru2(Te6)]TeBr3)4(TeBr2)2 kann je nach Betrachtungsweise entweder als Te6-Ring, der durch zwei (Ru2+Te2+3Br-8)-Kappen umgeben ist oder als [Ru2Te6]4+-Heterokuban, welcher zusätzlich mit Bromidotelluratliganden koordiniert ist, beschrieben werden. In den Kristallstrukturen der ternären Koordinationspolymere [M(Te6)]X3 (M = Rh, Ir; X = Cl, Br, I) verlaufen entlang der c-Achse lineare, positiv geladene [M(Te6)]3+-Ketten (M = Rh,Ir), in denen abwechselnd ein ektronenreiches Übergangsmetallatom und sechsgliedrige Tellurringe koordinativ gebunden sind, wodurch eine hoch symmetrische Anordnung realisiert wird. Dabei zeigt sich aufgrund der starken Bindung an die Übergangsmetallatome eine erhebliche Ringspannung im Vergleich zu den bekannten sechsgliedrigen Tellureinheiten. Isolierte Halogenidionen, welche sich in der Ebene der Übergangsmetallatome befinden, dienen einerseits zum Ladungsausgleich der positiv geladenen Ketten und verbrücken andererseits innerhalb eines Stranges benachbarte Te6-Ringe. Im Koordinationspolymer [Ru(Te8)]Cl2 konnte ein neutraler Te8-Ring mit einer bislang für achtgliedrige Chalkogenmoleküle unbekannten Konformation röntgenographisch nachgewiesen werden. Die Abweichung von der bevorzugten Kronenform, ist wiederum ein E ekt der starken Bindung zwischen den Telluratomen und den Rutheniumatomen. In den linearen, positiv geladenen [Ru(Te8)]2+-Strängen binden 3+3 Telluratome an zwei benachbarte Rutheniumatome. Isolierte Chlorid-Ionen, die zwischen den positiven Strängen eingelagert sind, dienen in der Kristallstruktur zum Ladungsausgleich. Das quaternäre Koordinationspolymer [Ru(Te9)](InCl4)2 beinhaltet eine neuartige, zyklische Te9-Einheit, welche die Vielfalt der tellurreichen Ringstrukturen erweitert. Analog zum ternären Koordinationspolymer [Ru(Te8)]Cl2 gliedert sich die Kristallstruktur in [Ru(Te9)]2+-Stränge, die entlang der c-Achse verlaufen, und dem komplexen Anion (InCl4)-. Ein besonders interessantes Strukturmerkmal der positiv geladenen Stränge stellt das käfigartige Fragment [Ru-(Te9)-Ru] dar, dessen hexazyklischer Aufbau aus kondensierten Fünfringen den isolierten Undecapniktiden Pn113- (Pn = P, As, Sb) topologisch äquivalent ist. Für einen genaueren Einblick in die chemische Bindung der tellurreichen Koordinationspolymere [Rh(Te6)]Cl3, [Ru(Te8)]Cl2 und [Ru(Te9)](InCl4)2 wurden quantenchemische Rechnungen durchgeführt. Eine topologische Analyse der Elektronendichte und des Elektronenlokalisierbarkeitsindikators (ELI-D) an koordinierenden und freien Tellurmolekülen sollte zu detaillierten Aussagen über Gründe der extremen Ringspannung aufgrund der Koordination führen. Zusammenfassend kann feststellt werden, dass die Verzerrung der Tellurringe in den Koordinationspolymeren einerseits der gerichteten Bindung zu den Übergangsmetallatomen geschuldet ist und andererseits um Platz für die sich abstoßenden freien Elektronenpaare zu bekommen. Für weitere Arbeiten könnten zunächst einerseits die Untersuchungen zur Löslichkeit der Clusterverbindung Re4Q4(TeCl2)4Cl8 (Q = S, Se, Te) in organischen Lösungsmitteln als Ausgangspunkt für die Austauschreaktionen der terminalen Halogenidotelluratliganden durch neue verbrückenden Gruppen von Interesse sein. Andererseits kann auch innerhalb des untersuchten Systems, durch Variation der Eduktzusammensetzung, neuartige Tellurmoleküle erwartet sowie die bereits erworbenen Erkenntnisse zur Übertragung auf das leichtere Homologon Selen genutzt werden.

info:eu-repo/classification/ddc/541

ddc:541

Multikomponentní extrakce a prekoncentrace mikrokoncentrací As, Sb, Se a Te na modifikovaný silikagel, stanovení na ICP-AES (ICP-MS) a aplikace na vzorky vod / Multicomponental Preconcentration of As, Sb, Se and Te on Modified Silica, Their Determination by ICP-AES (ICP-MS) and Application for Waters

Urbánková, Kristýna

January 2008

The determination of inorganic speciations of arsenic, antimony, selenium and tellurium in natural waters demands often separation and preconcentration. Solid phase extraction is a very effective method for these purposes. In this paper the separation and preconcentration of these microelements is realised on the basis of modified silica Separon SGX C18, SGX C8, SGX CN, SGX NH2, SGX Phenyl and strongly basic anion Exchanger SGX AX. The sorption was provided in the presence of cationic surfactants such as benzyldimethyl dodecylammonium bromide (Ajatin), benzyldimethyltetradecylammonium chloride (Zephyramine), 1-ethoxycarbonylpentadecyltrimetrhylammonium bromide (Septonex) and selected complexing agents 4-(2-pyridylazo)resorcinol (PAR), 8-hydroxyquinoline-5-sulphonic acide (8-HQS), 1,2-dihydroxybenzene (PYR), amonium 1-pyrrolidinecarbodithioate (APDC), sodium diethyldithiocarbamate (DTC) or thiourea(Thur). The interactions of the formed ion associate with the sorbent shows a complicated character which has not been cleared as yet. The previous conditioning of the sorbent plays an outstanding role. Thus, the sorption efficiency was studied in the presence and absence of surfactant and of selected organic complexing agents. Moreover, the influence of pH of the sorbed solution as well as the speed and the volume of the solution running through the sorbent and the type and volume of the eluent on the resulting sorption efficiency was evaluated. The sorption was successfully carried out from 50-1000 ml of solution which allows the 100 fold increase of the preconcentration factor and the determination of the microelements in g.l-1 instead of mg.l-1 by using the common ICP-AES. The influence of macroelements occurring in waters as well as B, Be, Bi, Cd, Co, Cr, Cu, Mn, Mo, Ni, Pb, Sr, Ti, V and Zn in comparable concentrations involve less than 5% error. After the quantitative elution of microelements, the organic solvents were evaporated under IR lamps prior to the determination by ICP-AES and |ICP-MS. The conditions for the direct determination of arsenic, antimony, selenium and tellurium in g.l-1 with ICP-MS were also described in detail in the absence and presence of internal standards Ge and Bi. However, even in this case the preconcentration on silica in the presence of surfactant and selected organic complexants was also tested. When the sorption was followed from 500 ml a 50 fold enrichment factor is reached and the sensitivity for the microelements is improved. The direct determination and the sorption of microelements were applied on synthetic and real waters (dirinking, surface, mineral and sea waters). Instrumental and practical detection limits for various water samples were evaluated according to IUPAC. The results from 1000 ml solution of real waters after sorption on modified silica and the final determination of microelements with ICP-AES were compared with those from ICP-MS without sorption using the method of standards addition in the presence of suitable internal standards. By comparison of results for synthetic and real water samples the error of the determination of microelements was evaluated.

Nanopatterned Phase-Change Materials for High-Speed, Continuous Phase Modulation

Aboujaoude, Andrea E.

January 2018

No description available.

Electrical Engineering

Optics

nanofabrication

phase-change materials

PCMs

phase modulation

nanopatterning

nanorod

GeSbTe

GST

germanium-antimony-tellurium

COMSOL

Thulium doped tellurium oxide amplifiers and lasers integrated on silicon and silicon nitride photonic platforms

Miarabbas Kiani, Khadijeh

January 2022

Silicon photonics (SiP) has evolved into a mature platform for cost-effective low power compact integrated photonic microsystems for many applications. There is a looming capacity crunch for telecommunications infrastructure to overcome the data-hungry future, driven by streaming and the exponential increase in data traffic from consumer-driven products. To increase data capacity, researchers are now looking at the wavelength window of the thulium-doped fiber amplifier (TDFA), centered near 2 µm as an attractive new transmission window for optical communications, motivated by the demonstrations of low loss, low nonlinearity, and high bandwidth transmission. Large-scale implementation of SiP telecommunication infrastructure will require light sources (lasers) and amplifiers to generate signals and boost transmitted and/or received signals, respectively. Silicon (Si) and silicon nitride (Si3N4) have become the leading photonic integrated circuit (PIC) material platforms, due to their low-cost and wafer-scale production of high-performance circuits. Silicon does however have a number of limitations as a photonic material, including that it is not an ideal light-emitting/amplifying material. This proposed research pertains to the fabrication of on-chip silicon and silicon nitride lasers and amplifiers to be used in a newly accessible optical communications window of the TDFA band, which is a significant step towards compact PICs for the telecommunication networks. Tellurium oxide (TeO2) is an interesting host material due to its large linear and non-linear refractive indices, low material losses and large rare-earth dopant solubility showing good performance for compact low-loss waveguides and on-chip light sources and amplifiers. Chapter 1 provides an overview of silicon photonics in the context of particularly rare earth lasers and amplifiers, operating at extended wavelengths enabled by the Thulium doped fiber amplifier. Chapter 2 presents a theoretical performance of waveguides and microresonators as the efficient structure for laser and amplifiers applications designed for optimized use in Erbium and Thulium doped fiber amplifier wavelength bands. Then spectroscopic study thulium (Tm3+) has been studied as the rare earth element for Thulium doped fiber amplifier wavelength bands. Chapter 3 presents an experimental study of TeO2:Tm3+ coated Si3N4 waveguide amplifiers with internal net gains of up to 15 dB total in a 5-cm long spiral waveguide. Chapter 4 provides a study of TeO2:Tm3+ -coated Si3N4 waveguide lasers with up to 16 mW double-sided on-chip output power. Chapter 5 presents an experimental study of low loss and high-quality factor silicon microring resonators coated with TeO2 for active, passive, and nonlinear applications. Chapter 6 represents the first demonstration of an integrated rare-earth silicon laser, with high performance, including single-mode emission, a lasing threshold of 4 mW, and bidirectional on-chip output powers of around 1 mW. Further results with a different design are presented showing lasers with more than 2 mW of double-sided on-chip output power, threshold pump powers of < 1 mW and lasing at wavelengths over a range of > 100 nm. Importantly, a simple, low-cost design was used which is compatible with silicon photonics foundry processes and enables wafer scale integration of such lasers in SiP PICs using robust materials. Chapter 7 summarizes the thesis and provides paths for future work. / Dissertation / Doctor of Engineering (DEng)

Silicon Photonics

Integrated optics

On-chip silicon lasers

Tellurium oxide

Investigation of Polymer Based Materials in Thermoelectric Applications

Luo, Jinji

19 May 2015

With the advancements in the field of wireless sensor networks (WSNs), more and more applications require the sensor nodes to have long lifetime. Energy harvesting sources, e.g. thermoelectric generators (TEGs), can be used to increase the lifetime and capability of the WSNs. Integration of energy harvesters into sensor nodes of WSNs can realize self powered systems, providing the possibility for maintenance free WSNs. TEGs can convert the existing temperature differences into electricity. The efficiency of TEGs is directly related to the dimensionless figure of merit (ZT) of materials, which is given as ZT=σS^2 T/k, where σ is the electrical conductivity, S is the Seebeck coefficient, k is the thermal conductivity, T is the temperature and σS^2 is the power factor. Traditional thermoelectric (TE) materials are based on inorganic materials, of which the thermal conductivity is high. Over the past decade, the use of nanostructuring technology, e.g. superlattice, could decrease the thermal conductivity in order to enhance the efficiency of TE materials. However, the high cost and the rigidity of inorganic TE materials are limiting factors. As alternatives, polymer based materials have become the research focus due to their intrinsic low thermal conductivity, high flexibility and high electrical conductivity. Moreover, polymer based materials could be fabricated in solution form, giving the possibility for employing printing techniques hence a decrease in the production cost. Unlike the typical approach, in which secondary dopants are added into PEDOT:PSS solutions to modify the power factor of polymer films, this thesis is focused on a more efficient method to improve TE properties. This thesis demonstrates for the first time that post treatment of PEDOT:PSS films with the secondary dopant DMSO as the medium results in a much larger power factor than the traditional addition method. The post treatment method also avoids the usually required mixing step involved in the addition method. Different solvents were selected to discuss the impact factors in the modification of the power factor by this post treatment approach. The post treatment of PEDOT:PSS films was then extended to utilize a green solvent EMIMBF_4 (an ionic liquid) as the medium. EMIMBF_4 is found to exchange ions with PEDOT:PSS films. As a result, the EMIM^+ cations remain in the films and reduce the oxidation level of PEDOT chains, which affects the Seebeck coefficient and the electrical conductivity. Furthermore, TE materials based on hybrid composites with polymer as the matrix and Te nanostructures as the nanoinclusions were investigated. This thesis successfully developed a green synthesis method to obtain Te nanostructures, in which a non toxic reductant and a non toxic Te sources were used. Well controlled Te nanostructures including nanorods, nanowires and nanotubes were synthesized by wet chemical and hydrothermal synthesis. Those as synthesized Te nanowires were then integrated into PEDOT:PSS solution for composite films fabrication. A high Seebeck coefficient up to 200 μV/K was observed in the composite film. / Mit den Weiterentwicklungen der Drahtlosen Sensornetzwerke (engl. WSN, wireless sensor networks) stellen immer mehr Anwendungen die Forderung einer langen Lebensdauer der Sensorknoten. Energiegewinnungssysteme (engl. Energy Harvesters) wie z.B. thermoelektrische Generatoren (TEGs) können genutzt werden, um die Lebensdauer und Leistungsfähigkeit der WSN zu steigern. Mit der Integration von Energy Harvesters können WSN ohne äußere Stromversorgung realisiert und somit die Möglichkeit zur Wartungsfreiheit geschaffen werden. TEGs liefern Energie durch die Umwandlung einer Temperaturdifferenz in Elektrizität. Die Effektivität der TEG ist direkt verbunden mit der Material-Kennzahl ZT und ist gegeben durch ZT=σS^2 T/k, wobei σ die elektrische Leitfähigkeit ist, S der Seebeck Koeffizient, k die thermische Leifähigkeit, T die Temperatur und σS^2 der Leistungsfaktor. Herkömmliche thermoelektrische (TE) Materialien basieren auf anorganischen Materialien, von denen die thermische Leitfähigkeit hoch ist. Im Laufe des letzten Jahrzehnts konnte durch den Einsatz der Nanostrukturierung die thermische Leitfähigkeit verringern werden um damit die Effizienz von TE-Materialien zu steigern. Die Steifigkeit dieser Materialien ist ein anderer Aspekt. Als Alternative für anorganische TE Materialien sind Polymer basierte TE Materialien zum Fokus der Forschung geworden aufgrund einer intrinsisch niedrigen thermischen Leitfähigkeit, hohen Flexibilität und hohen elektrischen Leitfähigkeit. Des Weiteren können diese Polymere in gelöster Form verarbeitet werden, was die Möglichkeit für den Einsatz von Drucktechnologien und damit geringeren Produktionskosten gibt. Anders als der herkömmliche Ansatz den Leistungsfaktor der Polymerfilme durch die Ergänzung von sekundären Dotanten in PEDOT:PSS Lösungen zu verändern, wurde in dieser Arbeit eine effizientere Methode zur Verbesserung der TE Eigenschaften gesucht. In dieser Arbeit wird zum ersten Mal gezeigt, dass die Nachbehandlung von PEDOT:PSS Schichten mit sekundären Dotanten Dimethylsulfoxid (DMSO) als Medium der Nachbehandlung zu einem viel höheren Leistungsfaktor führt als bei der Zugabemethode und außerdem die sonst erforderliche Mischprocedur vermeidet. Es wurden verschiedene Lösungsmittel ausgewählt um die Einflussfaktoren bei der Modifikation des Leistungsfaktors durch die Nachbehandlung von Polymerschichten zu diskutieren. Die Nachbehandlung von PEDOT:PSS Schichten wurde nachfolgend erweitert um das umweltfreundliche Lösungsmittel EMIMBF4 (eine ionische Flüssigkeit) als das Medium einzusetzen. EMIMBF4 ist bekannt für den Austausch von Ionen mit PEDOT:PSS Schichten, so dass EMIM Kationen in der Schicht verbleiben, die Oxidationsstufe der PEDOT-Ketten senken und damit den Seebeck-Koeffizient und die elektrische Leitfähigkeit beeinflussen. Des Weiteren konzentriert sich diese Arbeit auf TE Materialien basierend auf Kompositen aus Polymeren mit Nanoeinlagerungen. Erfolgreiche Syntheseansätze wurden für Tellur-Nanostrukturen entwickelt, bei denen keine giftigen Reduktionsmittel und keine giftigen Tellur-Quellen zur Verwendung kamen. Es erfolgte die Erzeugung von kontrollierten Tellur-Nanostrukturen, einschließlich Nanostäben, Nanodrähten und Nanoröhren, mit nass-chemischer und hydrothermaler Synthese. Die so hergestellten Nanodrähte wurden dann in PEDOT:PSS Lösungen integriert für die Herstellung von Komposite-Schichten. Dabei konnte ein hoher Seebeck-Koeffizienten, bis zu 200 μV/K, festgestellt werden.

info:eu-repo/classification/ddc/600

ddc:600

info:eu-repo/classification/ddc/546

ddc:546

Reagentes de selênio e telúrio em síntese orgânica: íons de carbênio estalizados por selênio e alfa-telurocetonas / Selenium and Tellurium in Organic Synthesis: Carbenium Ions Stabilized of Selenium and Alfa-Teluroketones

Stefani, Helio Alexandre

24 June 1988

Na primeira parte deste trabalho, desenvolvemos duas metodologias para a preparação de &#945;-dicloroteluro cetonas. A primeira utiliza a reação direta de tricloretos de ariltelúrio com cetonas e a segunda envolve a reação do mesmo reagente com éteres enólicos de silício de cetonas. As dicloroteluro cetonas preparadas foram transformadas em &#945;-halo cetonas pela reação com cloro ou bromo, ou utilizando condições de termólise sob pressão reduzida. Dados de ressonância magnética nuclear de 1H e de 13C, de difração de raios-X e de espectros no infra-vermelho foram utilizados na determinação estrutural dos compostos preparados. Numa segunda arte foram preparados &#945;-halo-&#945;-seleno alcanos através da adição de HBr a selenetos vinílicos obtidos por reação de acetilenos aromáticos com selenofenol. Os &#945;-halo-&#945;-seleno alcanos foram transformados em &#945;-selenofenil acetaldeídos por reação de solvólise em DMSO. / In the first parto of this work two methodologies for the synthesis of &#945;-dichlorotelluroketones were developed. The first one employs the reaction of aryltellurium tricholorides with ketones and the second one involves the reaction of the same reagent with silylenol ethers of ketones. The &#945;-dichlorotelluroketones prepared were transformed into &#945;-halo ketones by means of the reaction with chlorine or bromine or by pyrolysis at reduced pressure. 1H and 13C nuclear magnetic ressonance, x-ray difraction and infrared data were used in the structure elucidations of the compounds prepared. In the second part of the work &#945;-halo- &#945;-seleno-alkanes were prepared by addition of hydrogen bromide to vinylic selenides which were prepared by reacting aromatic acetylenes with selenophenol. The &#945;-halo-&#945;-seleno-alkanes were transformed into &#945;-selenophenyl acetaldehydes by solvolysis in DMSO.

Alfa-Selenofenil acetaldeídos

Alfa-Selenophenyl acetaldheydes

Cetonas

Ketones

Organic reagents

Organic synthesis

Reagentes orgânicos

Selênio

Síntese orgânica

Tellurium

Telluroketonas

Telúrio

Telurocetonas

Reagentes de Selênio e Telúrio em síntese orgânica: dicloro&#945;-(alquilteluro)cetonas, 1,1-Dihalo-2-(fenilseleno)ciclopropanos e teluretos vinílicos trissubstituídos / Selenium and Tellurium Reagents in Organic Chemistry: Dichloro alfa-(Alkyltelluro)Ketones, 1,1-Dihalo-2-(Phenylseleno)Cyclopropanes and Trisubstituted Vinylic Tellurides

Stefani, Helio Alexandre

21 June 1991

DICLORO-&#945;-(ALQUILTELURO)CETONAS Estudou-se a reação entre quantidades equimolares de cetonas ou éteres enólicos de silício de cetonas e tricloretos de alquil telúrio, obtendo-se dicloro-&#945;-(organil) cetonas. Em todos os exemplos efetuados obtiveram-se bons resultados apenas nas reações com éteres enólicos de silício. TELURETOS VINíLICOS TRISSUBSTITUíDOS Neste trabalho desenvolvemos um método de preparação de teluretos vinílicos trissubstituídos, obtidos através da reação de adição de tricloreto de aril telúrio e tetracloreto de telúrio a acetilenos aromáticos e alifáticos, levando aos dicloretos de aril-2-clorovinila de configuração Z. A redução da ligação Te-Cl dos dicloroteluro compostos obtidos, levando aos teluretos correspondentes pode ser efetuada em alto rendimento pela reação com um equivalente de NaBH4. A halogenodeteluração destes teluretos vinílicos trissubstituídos foi possível reagindo-os com N-bromosuccinimida/cloreto de alumínio, obtendo-se bromocloroalquenos em rendimentos moderados. 1,1-DIHALO-2-(FENILSELENO)CICLOPROPANOS Outro tópico abordado foi a preparação de 1,l-dihalo(fenilseleno)ciclopropanos, por meio da adição de dihalocarbenos, gerados sob condições de transferência de fase, a selenetos vinílicos de configuração Z ou E. A adição ocorreu com retenção de configuração da ligação olefínica. Também foram preparados, empregando-se a mesma metodologia acima mencionada, selenociclopropanos tri- e tetrassubstituídos. / &#945;- DICHLORO-(ORGANYLTELLURO)KETONES The reaction of equimolar amounts of ketones or ketone trimethylsilylenol ethers with aryltellurium trichlorides in boiling benzene produces &#945; - dichloro-(aryltelluro) ketones in good yields. The reaction with aliphatic tellurium trichlorides give good results only with ketone silyl enol ethers; reaction with ketones gives low yields of the &#945;-dichloro-(organyltelluro)ketones. VINYLIC TELLURIDES (p-Methoxyphenyl)tellurium trichlorides and tellurium tetrachloride react with terminal acetylenes to give 1-chloro-1-organyl-2-[dichloro(p-methoxyphenyl)telluro] ethenes of Z configuration in good yields. The diorganyl tellurium dichlorides are reduced to the corresponding tellurides with sodium borohydride. Halogenodetelluration of these trisubstituted vinylic tellurides was possible by reaction with N-bromosuccinimide/aluminium(III) chloride, producing the correspondent bromochloroalkenes in good yields. 1,1-DIHALO-SELENOCYCLOPROPANES Selenocyclopropanes were prepared by the addition of dihalocarbenes, generated under phase transfer conditions to Z and E disubstituted vinylic selenides. The addition occurs with retention of configuration of the olefinic bond. By employing the above mentioned methodology it was possible to prepare tri- and tetrasubstituted selenocyclopropanes.

1,1-Dihalo-selenociclopropanos

1,1-Dilaho-selenocyclopropanes

Cetonas

Ketones

Organic chemistry

Organic synthesis (Chemistry)

Química orgânica

Síntese orgânica (Química)

Tellurium

Telluroketones

Teluretos vinílicos

Telúrio

Telurocetonas

Vinylic tellurides

Estudos Reacionais de Teluretos Vinílicos, cálculos de coeficientes de blindagem efetivos e determinação computacional de RMN de 1H, 13C e 125Te / Reactional study tellurides vinyls, effective shielding values calculations and computational determination of RMN 1H, 13C e 125Te

Diego, Dennis Galasso

03 April 2006

O objetivo da pnmeIra parte do presente projeto é a síntese total da Isocicutoxina (esquema 1) e de alguns feromânios sexuais de insetos (esquema 2), utilizando algumas das reações já estudadas sistematicamente no nosso laboratório. (Ver PDF) As etapas chaves para síntese da Isocicutoxina foram uma reação de acoplamento entre um diino e um telureto vinílico, seguida por urna reação de Wittig. As etapas chaves para a síntese dos feromânios sexuais foram urna reação de acoplamento cruzado de um telureto vinílico com um organocrupato, seguida por urna reação tipo SN2 com um reagente de Grignard. O objetivo da segunda parte do presente projeto é a revisão bibliográfica e a sistematização de dados de RMN de 1H, 13C e 125Te d.e compostos contendo átomos de telúrio. Os ligantes contendo telúrio tiveram seus valores de RMN sistematizados e seus valores de coeficientes de blindagem efetivos analisados (esquema 3). (Ver PDF) Através de um software especializado, um banco de dados foi criado e possibilitou a simulação de espectros de RMN de 13C e 125Te. / The main goal of the first part of this project is the total synthesis of isocicutoxin (scheme 1) and some insects\' sexual pheromones by means of some reactions already studied by our group (scheme 2). (See PDF) The key steps for the synthesis of isocicutoxin were a coupling reaction between a diyne and a vinylic telluride, followed by a Wittig reaction. The key steps for the synthesis ofthe sexual pheromones were a cross coupling reaction between a vinylic telluride and an organocuprate, followed by a SN2 reaction with a Grignard reagent. The mam goal of the second part of the project lS the bibliographic reVleW and the systematization of 1H, 13C and 125Te data of tellurium compounds. The ligands containing tellurium had their NMR and their effective shielding values analyzed (Scheme 3). Using specialized software, a database was developed, which allowed the prediction of NMR 13C and 125Te spectra.

Estrutura molecular (Química teórica)

Feromônios sexuais (Estudo)

Organic synthesis

Sexual Pheromones (Study)

Síntese orgânica

Tellurium (study)

Telúrio (Estudo)

Design, Synthesis and Evaluation of Catalytic Chalcogenide Antioxidants

Shanks, David

January 2005

<p>This thesis describes the design, synthesis and evaluation of novel chalcogenide antioxidants. </p><p>A computational model for the prediction of antioxidant properties of chalcogen-containing antioxidants has been developed. The model has been used to probe the relationship between geometry, chalcogen substitution and activity for a series of α-tocopherol analogues of varying ring size and chalcogen substitution. </p><p>A series of simple diaryltellurides and aryl-alkyl tellurides have been synthesised. The selenium analogue of α-tocopherol has been synthesised in eleven steps and 6.5% total yield, with formation of the selenacycle by homolytic substitution at selenium as the key step. Tentative steps have been taken towards the construction of the tellurotocopherol structure by microwave-assisted radical cyclisation methodologies.</p><p>A combination of EPR and kinetic studies has been used to assess the antioxidant characteristics of selenotocopherol. A two-phase lipid peroxidation model revealed that the selenotocopherol is not catalytically regenerable. The same model has been used to assess the cooperativity of mixtures of tellurides with α-tocopherol and an aqueous thiol. It was seen that combinations of α-tocopherol with tellurides incorporating phenols displayed synergistic properties, and the mechanistic implications of this are discussed. </p><p>DSC measurements have been used to assess the antioxidant activity of tellurides together with coantioxidants in melts of polypropylene. The tellurides display excellent activity together with thiol or a sterically hindered phenol antioxidant. In chemiluminescence studies performed at lower temperatures, the telluride mixtures still outperform commercial blends, but to a lesser extent. In a synthetic oil a telluride has demonstrated promising antioxidant properties together with a thiol or phenolic antioxidant. However, under more realistic test conditions the telluride acts instead as a prooxidant. Some tellurides have been evaluated as antioxidants in paper. Water-soluble tellurides appear to function better than lipophilic tellurides, but neither is comparable in activity to α-tocopherol.</p>

Organic chemistry

antioxidant

tellurium

selenium

computational design

homolytic substitution

radical cyclisation

microwave-assisted synthesis

antioxidant regeneration

Organisk kemi

Organic chemistry

Organisk kemi