Strategies Toward Functional Transparent P-type Layers: Epitaxy of Copper Iodide by Pulsed Laser Deposition

Storm, Philipp

11 October 2022

In der vorliegenden kumulativen Arbeit werden Untersuchungen am transparenten p-Typ Halbleiter Kupferiodid (CuI) beschrieben. Die Dünnschichtherstellung erfolgte mittels gepulster Laserabscheidung (PLD). Der Einfluss der Wachstumsbedingungen auf die strukturellen, morphologischen und elektrischen Eigenschaften wird dargelegt hinsichtlich des Ziels der Fabrikation funktioneller Schichten auf Basis von CuI. Dazu wird im ersten Teil der Arbeit der generelle Einfluss der PLD-Parameter auf das Schichtwachstum beschrieben. Ein dominierender Einfluss der Wachstumstemperatur auf die kristalline Qualität, Oberflächenrauhigkeit sowie Ladungsträgerdichte und Mobilität wurde beobachtet. Die 250nm dicken Dünnschichten zeigen im sichtbaren Bereich eine Transmittanz von bis zu 90%. Exzitonische Absorptions- und Lumineszenzcharakteristika konnten an solchen Schichten nachgewiesen werden. Eine schützende Deckschicht aus Al2O3 erwies sich als elementar zur Stabilisierung der elektrischen Eigenschaften und erlaubte die Fabrikation nicht-degenerierten Kupferiodids. Im zweiten Teil werden detail- lierte Untersuchungen des elektrischen Langzeitverhaltens von CuI in Abhängigkeit des Wachstums der Al2O3 Deckschichten diskutiert. Für Sauerstoff-defizientes Al2O3 zeigte das CuI komplexe elektrische Degradationsmechanismen, welche auf die Diffusion von Sauerstoff innerhalb der Heterostruktur zurückgeführt wurden. Die Ergebnisse beweisen einen dominierenden Einfluss extrinsischer Akzeptoren auf die elektrischen Eigenschaften von PLD gewachsenem CuI. Im Kontrast zum bisherigen Stand der Literatur spielen intrinsische Defekte für die Erklärung eine untergeordnete Rolle. Um eine Stabilisierung der Ladungsträgerdichten im Zusammenspiel mit Sauerstoff-defizientem Al2O3 zu er- reichen, wurden die CuI Dünnfilme mit Selen dotiert. Die Grenze zwischen Dotierung und Legierung, welche sich durch reduzierte Bandkantenenergien und eine einsetzende Phasenseparation definiert, wurde bestimmt. Weiterhin konnte die Bindungsenergie des Selen-Akzeptors in CuI bestimmt werden. Der finale Teil der Arbeit fokussierte sich auf die Unterdrückung der Bildung von Rotationsdomänen als dominierende Defekte von PLD gewachsenem CuI. Dieses Ziel wurde mittels PLD gewachsenen Natriumbromid (NaBr) Zwischenschichten auf kommerziellen Strontiumfluorid Substraten erreicht. Die Oberflächenrauigkeit von entsprechenden Dünnschichten ist deutlich reduziert. Unter Ausnutzung der hohen Wasserlöslichkeit von NaBr wurde ein epitaktischer Ablöseprozess entwickelt, der zur Herstellung frei stehender CuI Schichten geeignet ist. Das Wachstum von einkristallinen Volumenkristallen ist jedoch beschränkt, da bei Schichtdicken > 2 μm Defekthäufungen beobachtet werden und Rotationsdomänen auftreten.:1 Introduction 2 Theoretical Descriptions 2.1 Copper Iodide 2.1.1 Conductivity and Defect Chemistry 2.2 Epitaxy of Crystalline Thin Films 2.2.1 Stress and Strain 2.2.2 Heteroepitaxy of Copper Iodide 2.3 Electronic Defect States in Semiconductors 3 Experimental Methods 3.1 Sample Preparation by Pulsed Laser Deposition-PLD 3.1.1 Combinatorial and Eclipse PLD 3.2 Characterization Techniques 3.2.1 X-ray Diffraction-XRD 3.2.2 Scanning Electron Microscopy (SEM) and Energy Dispersive X-Ray Spectrometry(EDX) 3.2.3 Atomic Force Microscopy-AFM 3.2.4 Laser Scanning Microscopy-LSM 3.2.5 Time-of-Flight Secondary Ion Mass Spectrometry - ToF-SIMS 3.2.6 Rutherford Backscattering-RBS 3.2.7 Hall-Effect 3.2.8 Spectroscopic Ellipsometry 3.2.9 Photoluminsescence Spectroscopy-PL 3.2.10 Transmission Spectroscopy 4 Cumulative Part 4.1 Optimization of Copper Iodide Thin Film Growth by Pulsed Laser Deposition 4.2 Origin of Free Charge Carriers and p-Doping of PLD Copper Iodide 4.3 Suppression of Rotational Domains, Volume Crystals and Epitaxial Lift-Off 5 Summary and Outlook Bibliography List of Abbreviations List of Publications Author Contributions Zusammenfassung nach Promotionsordnung §11(4) Selbstständigkeitserklärung

info:eu-repo/classification/ddc/530

ddc:530

Reactivity and photochemistry of copper halide complexes / Reaktivitet och fotokemi hos kopparhalidkomplex

Wicksell Chuainukun, Needa Athitaya

January 2021

This paper deals with 3-picoline, 4-picoline, 3,4-lutidine and 3,5-lutidine complexes of copper(I) iodide (CuI(3-pic), CuI(4-pic), CuI(3,4-lut) and (CuI(3,5-lut)). The experimental investigation was divided into several parts. Firstly, the synthesis and characterization of the compounds both as powder and as thin films. Secondly, the photoluminescence study. Thirdly, the observation of ligand exchange reaction by vapor diffusion, and lastly, the determination of the lifetime by time-resolved photoluminescence of respective compound.  All studied copper(I)-iodide-substituted pyridine compounds were emissive both as powders and thin films. The synthesis of the tetranuclear cluster powders yields both cluster and polymeric forms of structure. The pXRD of the powders CuI(3-pic), CuI(4-pic), and CuI(3,5- lut) confirmed to be as polymeric structures, hence the CuI(3-pic) showed thermochromism behavior. The structure of CuI(3,4-lut) is still unconfirmed. The most effective method for the synthesis of the thin films was the SILAR method.  The photoluminescence spectra of respective thin films differ from their corresponding powders, and the structure of the compounds as thin films is yet unexplored. The emission of CuI(3-pic), CuI(4-pic), and CuI(3,4-lut) as thin films were similar 480nm, hence the emission of CuI(3,5-lut) thin film lays on 518 nm. Therefore, the ligand exchange reaction was performed on the CuI(3-pic) thin film with 3,5-lutidine as the exchanging ligand.  The ligand exchange reaction of CuI(3-pic) thin film by vapor diffusion of 3,5-lutidine results in a spectrum shift from the emission spectrum of CuI(3-pic) to the spectrum of CuI(3,5-lut). This indicates a successful ligand exchange reaction by vapor diffusion.  The lifetimes of the investigated compounds which have their best fit of mono-exponential function were between 2,2 μs and 9,52 μs. The lifetimes were determined on the thin films with time-resolved photoluminescence. The ligand exchange reaction was also observed by time- resolved photoluminescence which reveals some stable lifetimes during the reaction that can indicate the formation of intermediates. In contrast, the measured lifetimes during the ligand exchange reaction have their best fit of bi-exponential function which can be due to reaction conditions during the measurement or the homogeneity of the thin films. / Denna uppsats behandlar 3-pikolin, 4-pikolin, 3,4-lutidin och 3,5-lutidin komplex av koppar(I) jodid (CuI(3-pic), CuI(4-pic), CuI(3,4-lut) och (CuI(3,5-lut)). Den experimentella undersökningen delades in i olika delar. Först, syntesen och karakteriseringen av föreningarna både som pulver och som tunn film. Sedan studerades fotoluminiscensen av respektive förening. Därefter genomförde en ligand-utbytes-reaktion genom förgasning och slutligen bestämde livstiden av föreningarnas exciterade tillstånd.  Alla koppar(I) jodid föreningar som studerade gav upphov till emission både som pulver och som tunn film. Syntesen av tetranukleära kluster i pulverform resulterade i både kluster och polymer struktur. pXRD av pulvren CuI(3-pic), CuI(4-pic) och CuI(3,5-lut) bekräftade dess struktur som polymera strukturer. Däremot visade CuI(3-pic) termokromism. Strukturen för CuI (3,4-lut) kunde inte obekräftas. Den mest effektiva metoden för syntes av tunn film i det här fallet är med SILAR-metoden.  Fotoluminescensspektra för respektive tunn film skiljer sig från deras motsvarande pulverform och strukturen på tunn film är fortfarande outforskat. Emission av CuI(3-pic), CuI(4-pic) och CuI(3,4-lut) som tunn film var ungefär lika ~480 nm medan för CuI(3,5-lut) så var det på 518 nm. Med denna kontrast utfördes ligand-utbyte-reaktionen på tunn film av CuI(3-pic) med 3,5- lutidin.  Ligand-utbyte-reaktionen av CuI(3-pic) på tunn film via förgasning av 3,5-lutidin resulterar i en spektrumförskjutning från spektrumet av CuI(3-pic) till spektrumet av CuI(3,5-lut). Detta indikerar i en lyckad ligand-utbyte-reaktion.  Livslängderna för de undersökta föreningarna vilket har sin bästa passning i mono- exponentiell funktion var mellan 2,2 μs och 9,52 μs. Livstiderna bestämdes på de tunn film med ”time-resolved photoluminescence”. Ligand-utbyte-reaktionen observerades också med ”time- resolved photoluminescence” som avslöjar några stabila livstider under reaktionen vilket kan indikera bildning av intermedianer. De uppmätta livstiderna under ligand-utbyte-reaktionen har däremot sin bästa passning av bi-exponentiell funktion vilket kan bero på reaktionsförhållanden under mätningen och tunn filmernas homogenitet.

Photochemistry

Copper iodide complexes

Substituted pyridines

Thin films

Luminescence lifetime

Chemical Engineering

Kemiteknik

Interfacial and Electrode Modifications in P3HT:PC61BM based Organic Solar Cells: Devices, Processing and Characterization

January 2015

abstract: The inexorable upsurge in world’s energy demand has steered the search for newer renewable energy sources and photovoltaics seemed to be one of the best alternatives for energy production. Among the various photovoltaic technologies that emerged, organic/polymer photovoltaics based on solution processed bulk-heterojunctions (BHJ) of semiconducting polymers has gained serious attention owing to the use of inexpensive light-weight materials, exhibiting high mechanical flexibility and compatibility with low temperature roll-to-roll manufacturing techniques on flexible substrates. The most widely studied material to date is the blend of regioregular P3HT and PC61BM used as donor and acceptor materials. The object of this study was to investigate and improve the performance/stability of the organic solar cells by use of inexpensive materials. In an attempt to enhance the efficiency of organic solar cells, we have demonstrated the use of hexamethyldisilazane (HMDS) modified indium tin oxide (ITO) electrode in bulk heterojunction solar cell structure The device studies showed a significant enhancement in the short-circuit current as well as in the shunt resistance on use of the hexamethyldisilazane (HMDS) layer. In another approach a p-type CuI hole-transport layer was utilized that could possibly replace the acidic PEDOT:PSS layer in the fabrication of high-efficiency solar cells. The device optimization was done by varying the concentration of CuI in the precursor solution which played an important role in the efficiency of the solar cell devices. Recently a substantial amount of research has been focused on identifying suitable interfacial layers in organic solar cells which has efficient charge transport properties. It was illustrated that a thin layer of silver oxide interfacial layer showed a 28% increase in power conversion efficiency in comparison to that of the control cell. The optoelectronic properties and morphological features of indium-free ZnO/Ag/MoOx electrodes was also studied. Organic solar cells on these composite electrodes revealed good optical and electrical properties, making them a promising alternative indium free and PEDOT:PSS-free organic solar cells. Lastly, inverted solar cells utilizing zinc oxide and yttrium doped zinc oxide electron transport was also created and their device properties revealed that optimum annealing conditions and yttrium doping was essential to obtain high efficiency solar cells. / Dissertation/Thesis / Doctoral Dissertation Chemistry 2015

Chemistry

Materials Science

copper iodide hole transport layer

HMDS modified ITO

ITO free electrode

organic solar cells

P3HT:PC61BM

Arilação seletiva de ânions heterocíclicos ambidentados por sais de difenil iodônio / Seletive arylation of ambident heterocycle anions by diphenyl iodonium salts

Artur, Julio Cesar

12 September 2008

A arilação seletiva de compostos orgânicos confere-lhes propriedades com amplas aplicações: em compostos de atividade biológica, inibidora da protease do vírus HIV-1, e de interesse como agroquímicos ou na engenharia de materiais. Em razão disso, novos métodos e reagentes tem sido desenvolvidos com essa finalidade. Sabe-se que a N-arilação de várias aminas, catalisadas por paládio, com haletos de arila e triflatos é tida como ferramenta importante a disposição do químico sintético. Do mesmo modo, publicou-se que a N-arilação de certos -amino ácidos por haletos de arila, procede-se facilmente quando catalisada por CuI. Alternativamente, a literatura cita outros métodos eficientes usando ácidos borônicos, compostos arilbismuto e compostos organochumbo. Neste trabalho foi estudada a arilação seletiva de ânions ambidentados pelo sal de iodo polivalente cloreto de difenil iodônio, em diferentes condições de reação, visando a otimização da síntese: 1) reação térmica (agitação magnética), sem catalisador, e em diferentes solventes, ou mistura de solventes; 2) reação sonoquímica, sem catalisador e em diferentes soluções; 3) reação térmica e sonoquímica na presença de catalisador CuCl (10%). Sacarinato de sódio, acesulfame de potássio, e ftalimida potássica foram escolhidos como ânions ambidentados derivados de sulfoimidas e imidas a serem arilados. No caso de N-fenil sacarina a quemiosseletividade e o melhor rendimento são observados com acetonitrila/água (1:1, v/v), sob refluxo para formação do par iônico intermediário (ou o iodano correspondente), seguido por fusão térmica na ausência de solvente. O acesulfame potássico, por sua vez, forneceu seletivamente produtos de N- ou O-fenilação, de acordo com as seguintes condições estabelecidas: 1) produto de fenilação por via térmica ou sonoquímica em etanol; 2) produto de O-fenilação, por via térmica ou sonoquímica em acetonitrila. A ftalimida potássica, na ausência de catalisador, é arilada em baixos rendimentos. A melhor condição de síntese é encontrada com acetonitrila e CuCl (10%), sendo 92% o rendimento por via sonoquímica e 78% por via térmica. A seletividade verificada foi analisada em termos das interações dos ânions ambidentados e dos solventes em questão. / The arylation of organic compounds gives place to a wide number of applications: concerning to their biological properties as HIV-1, protease inhibitor, as well as synthetic intermediates in pharmaceuticals, agrochemical and polymer chemistry. New methodologies and reagents have been developed as consequence of this. It is already known that N-arylation of several amines, catalyzed by palladium, with aryl halides and trifflates is a valuable tool to various reported organic synthesis. In the same way, it has been published that the N-arylation of certain -amino acids by aryl halides, proceeds smoothly when catalized by CuI. Alternatively, the literature reports other efficient methods using boranic acids, arylbismuth and organolead compounds. In the present work, it was studied the selective arylation of ambident anions by hypervalent iodine salts (chloride of diphenyl iodonium), in a different set of conditions, seeking the synthesis optimizations: 1) thermal reactions (silent mode, magnetic stirring), without catalyst, and, in different solvents or mixture of then; 2) sonochemical reactions, without catalyst, and in a different solvent composition; 3) thermal and sonochemical reactions carried out in the presence of (10%) CuCl as the catalyst. Sodium saccharinate, acessulfame K and potassium phthalimide were chosen as the ambident anions (derived from sulfonimides and imide functional groups) to be studied. In the N-phenyl saccharin case the chemioselectivity was achieved along the best yields when water/acetonitrila (1:1, v/v) solvent was employed in the step to form the ion pair (or the 3-iodane, intermediate), followed by the thermal fusion in the absence of solvent. The acessulfame K, for its turn, supplied selectively products of N- and O-arylation under the following established conditions: 1) N-phenylation in etanol through thermal and sonochemical approach; 2) O-phenylation product, in acetonitrila, by thermal and sonochemical method. Finally, arylation of potassium phthalimide with diaryliodonium is sluggish and gives low yields without catalyst. The best protocol to this synthesis was found with the solvent acetonitrile and (10%) CuCl catalyst addition, being 92% the yield of sonochemical reaction and 78% of the thermal one. The selectivity achieving was analyzed in accord with the solution interaction between the ambident anion and the solvent molecules.

ambident anions

ânions ambidentados

arylation by diphenyl iodonium

efeito de solventes

ultra-som

ultrasound

Arilação seletiva de ânions heterocíclicos ambidentados por sais de difenil iodônio / Seletive arylation of ambident heterocycle anions by diphenyl iodonium salts

Julio Cesar Artur

12 September 2008

A arilação seletiva de compostos orgânicos confere-lhes propriedades com amplas aplicações: em compostos de atividade biológica, inibidora da protease do vírus HIV-1, e de interesse como agroquímicos ou na engenharia de materiais. Em razão disso, novos métodos e reagentes tem sido desenvolvidos com essa finalidade. Sabe-se que a N-arilação de várias aminas, catalisadas por paládio, com haletos de arila e triflatos é tida como ferramenta importante a disposição do químico sintético. Do mesmo modo, publicou-se que a N-arilação de certos -amino ácidos por haletos de arila, procede-se facilmente quando catalisada por CuI. Alternativamente, a literatura cita outros métodos eficientes usando ácidos borônicos, compostos arilbismuto e compostos organochumbo. Neste trabalho foi estudada a arilação seletiva de ânions ambidentados pelo sal de iodo polivalente cloreto de difenil iodônio, em diferentes condições de reação, visando a otimização da síntese: 1) reação térmica (agitação magnética), sem catalisador, e em diferentes solventes, ou mistura de solventes; 2) reação sonoquímica, sem catalisador e em diferentes soluções; 3) reação térmica e sonoquímica na presença de catalisador CuCl (10%). Sacarinato de sódio, acesulfame de potássio, e ftalimida potássica foram escolhidos como ânions ambidentados derivados de sulfoimidas e imidas a serem arilados. No caso de N-fenil sacarina a quemiosseletividade e o melhor rendimento são observados com acetonitrila/água (1:1, v/v), sob refluxo para formação do par iônico intermediário (ou o iodano correspondente), seguido por fusão térmica na ausência de solvente. O acesulfame potássico, por sua vez, forneceu seletivamente produtos de N- ou O-fenilação, de acordo com as seguintes condições estabelecidas: 1) produto de fenilação por via térmica ou sonoquímica em etanol; 2) produto de O-fenilação, por via térmica ou sonoquímica em acetonitrila. A ftalimida potássica, na ausência de catalisador, é arilada em baixos rendimentos. A melhor condição de síntese é encontrada com acetonitrila e CuCl (10%), sendo 92% o rendimento por via sonoquímica e 78% por via térmica. A seletividade verificada foi analisada em termos das interações dos ânions ambidentados e dos solventes em questão. / The arylation of organic compounds gives place to a wide number of applications: concerning to their biological properties as HIV-1, protease inhibitor, as well as synthetic intermediates in pharmaceuticals, agrochemical and polymer chemistry. New methodologies and reagents have been developed as consequence of this. It is already known that N-arylation of several amines, catalyzed by palladium, with aryl halides and trifflates is a valuable tool to various reported organic synthesis. In the same way, it has been published that the N-arylation of certain -amino acids by aryl halides, proceeds smoothly when catalized by CuI. Alternatively, the literature reports other efficient methods using boranic acids, arylbismuth and organolead compounds. In the present work, it was studied the selective arylation of ambident anions by hypervalent iodine salts (chloride of diphenyl iodonium), in a different set of conditions, seeking the synthesis optimizations: 1) thermal reactions (silent mode, magnetic stirring), without catalyst, and, in different solvents or mixture of then; 2) sonochemical reactions, without catalyst, and in a different solvent composition; 3) thermal and sonochemical reactions carried out in the presence of (10%) CuCl as the catalyst. Sodium saccharinate, acessulfame K and potassium phthalimide were chosen as the ambident anions (derived from sulfonimides and imide functional groups) to be studied. In the N-phenyl saccharin case the chemioselectivity was achieved along the best yields when water/acetonitrila (1:1, v/v) solvent was employed in the step to form the ion pair (or the 3-iodane, intermediate), followed by the thermal fusion in the absence of solvent. The acessulfame K, for its turn, supplied selectively products of N- and O-arylation under the following established conditions: 1) N-phenylation in etanol through thermal and sonochemical approach; 2) O-phenylation product, in acetonitrila, by thermal and sonochemical method. Finally, arylation of potassium phthalimide with diaryliodonium is sluggish and gives low yields without catalyst. The best protocol to this synthesis was found with the solvent acetonitrile and (10%) CuCl catalyst addition, being 92% the yield of sonochemical reaction and 78% of the thermal one. The selectivity achieving was analyzed in accord with the solution interaction between the ambident anion and the solvent molecules.

ânions ambidentados

efeito de solventes

ultra-som

ambident anions

arylation by diphenyl iodonium

ultrasound

Reaction of Copper and Copper(I) Iodide with Iodine and Strong Field Ligands / Reaktion av koppar och koppar(I) jodid med jod och starkfält ligander

Ali, Aya

January 2022

Perovskit solceller (PSCs) är kända som 'ljusomvandling' enheter med ökad omvandlingseffektivitiet (PCE). PSCs är kända för detta flexibilitet och hög tolerans mot defekter och består av fem lager med olika material och egenskaper. De fem lagren är följande; transparant elektrod, elektron ledande lager (ETL), perovskit lager, hål ledande lager (HTL) och metallelektroden.  Detta forskningsarbete fokuserar på metallelektroden (Cu-tunn film), HTL (CuI-tunn film) och det aktiva lagret (CuI-komplex).  Syftet med denna studie är att undersöka effekten av olika tjocklekar på ytans morfologi och grovhet för att se mängden jod som tränger sig genom filmen genom att beräkna volymen.  Resultatet av denna studie visar att ökad tjocklek leder till ökad grovhet. Man ser även att en ökad tjocklek leder till ett mer homogent och jämn yta, och dessutom ökar kornstorleken, vilket tyder på att kvaliten av kristallisationen förbättras.  Slutligen, genom att känna till tjockleken och storleken (arean) på ytan av proverna kunde man beräkna volymen för att indikera mängden jod som trängt sig genom filmen. Resultatet av denna del indikerade att ju tjockare provet är, desto mer kommer jod att tränga sig genom filmen. / Perovskite solar cells (PSCs) are known as light-harvesting devices with increased power conversion efficiencies (PCE). PSCs are known for their flexibility and high tolerance towards defects. It consists of five different layers with different materials and functions. Transparent electrode, electron transport layer (ETL) , perovskite or active layer , hole transport layer (HTL) and metallic electrode. In this research project, the focus is directed towards the metallic electrode (Cu-thin film), hole transport layer (CuI-thin film) and the active layer (CuI-complex). The purpose of this study is to investigate the effect of different thicknesses on the surface morphology and roughness and to see how much iodine is diffusing through the film by calculating the volume.  The results of this project present that the increase in thickness leads to an increase in roughness. It also shows that an increase in thickness leads to a more homogeneous and uniform surface and in addition the grain size increases which indicates that the quality of crystallization improves. Finally, by knowing the thickness and surface area of the samples the volume was calculated to indicate how much iodine is diffusing through the film and the results for this part indicated that the thicker the sample, more iodine will diffuse through the film.

in films

AFM

copper iodide

solar cells

transparent conductive films

tunnfilm

AFM

koppar jodid

solceller

transparent ledande film

Materials Chemistry

Materialkemi

Inorganic Chemistry

Oorganisk kemi

Reagentes organometálicos: preparação e reatividade de compostos orgânicos de telúrio / Organometallic reagents: preparation and reactivity of organic compounds of tellurium

Silva, Márcio Santos da

18 November 2011

Nesta tese foram desenvolvidas metodologias sintéticas para a preparação de compostos orgânicos de telúrio empregando reagentes organometálicos. Primeiramente, foi estudada a abertura tipo SN2 de lactonas, por organoiltelurolatos de lítio ou magnésio para obtenção dos respectivos ácidos telurocarboxílicos. Os organoiltelurolatos foram preparados a partir da reação do telúrio elementar com o organometálico desejado, evitando a manipulação de diteluretos alquílicos que apresentam odores desagradáveis. As reações de abertura de lactonas são de fácil execução e levam aos produtos em bons rendimentos (60 - 88 %). Além disso, há a possibilidade de transformação funcional dos produtos para alcoóis, a partir de uma redução in situ, ou para acil derivados, por meio da esterificação de Steglich. Os alcoóis obtidos são precursores sintéticos das respectivas espécies dilitiadas. Adicionalmente, foram preparados teluretos de alquil arila funcionalizados a partir da reação entre alquiltelurolatos de lítio com iodetos de arila catalisada por CuI (5 mol %). Também foi explorada a influência de ligantes, o que levou a um aumento do rendimento das reações testadas. Também foi estudada a reatividade de n-butilteluretos vinílicos e arílicos com reagentes organometálicos. Ou seja, foi estudada a reação de troca telúrio/metal com compostos organoilzinco e organoilmanganês. As reações com compostos de organoilzinco apresentaram resultados insatisfatórios, devido à baixa seletividade de transferência de grupos ligados ao zinco. As reações com compostos de manganês apresentaram bons resultados, com seletividade na transferência de ligantes e bons rendimentos dos produtos de captura dos compostos de organoilmanganês com eletrófilos. Foi estudada também a reação de acoplamento cruzado entre compostos de aril Grignard e teluretos de butil-vinila na presença de cloreto de manganês e iodeto de cobre (MnCl2/CuI). A reação ocorreu com elevada estereosseletividade e com rendimentos de moderados a bons. / In this PhD thesis synthetic methodologies for the preparation of organic compounds of tellurium employing organometallic reagents were developed. Initially, the SN2 type opening reaction of lactones by means of lithium or magnesium organotellurolates leading to the corresponding carboxylic acids was studied. The metal organotellurolates were prepared by reacting elemental tellurium with organolithium or Grignard reagents, avoiding the manipulation of bad smelling dialkylditellurides. The opening reactions occured easily, leading to the products in good yields (60 - 88 %). The tellurocarboxylic acids were transformed into alcohols by in situ reduction or into acyl derivatives, by a Steglich esterification. The obtained alcohols are precursors of the corresponding dilithium species by reaction with n-butyllithium. Additionally, functionalized arylbutyltellurides were prepared by reacting lithium alkyltellurolates with functionalized aryl iodides in the presence of CuI (5 mol %). The influence of ligands was also explored, leading to improved yields. It was also investigated the reactivity of vinyl butyltellurides with organometallic reagents. The tellurium/metal exchange reaction with organozinc and organomanganese compounds was studied. The reactions with organozinc compounds presented unsatisfactory results, in view of the low selectivity transfer of the groups linked to zinc. The reaction with organomanganese compounds presented better results in view of the fast Te/Mn exchange reaction, selectivity in the ligand transfer and good yields of the organomanganese capture products with electrophiles. It was also studied the cross-coupling reaction between aryl Grignard reagents and vinyl butyl tellurides in the presence of manganese chloride and copper iodide (MnCl2/CuI). The reaction occuried with high stereosselectivity and in moderate to good yields.

Acoplamento cruzado

Alkyl(oxy)tellurides

Aryltellurides

Cloreto de manganês

Copper iodide

Cross-coupling

Iodeto de cobre

Lactonas

Lactones

Manganese chloride

Tellurium

Tellurium/metal exchange

Teluretos alquílicos oxigenados

Teluretos arílicos

Teluretos vinílicos

Telúrio

Troca telúrio/metal

Vinyltellurides

Reagentes organometálicos: preparação e reatividade de compostos orgânicos de telúrio / Organometallic reagents: preparation and reactivity of organic compounds of tellurium

Márcio Santos da Silva

18 November 2011

Nesta tese foram desenvolvidas metodologias sintéticas para a preparação de compostos orgânicos de telúrio empregando reagentes organometálicos. Primeiramente, foi estudada a abertura tipo SN2 de lactonas, por organoiltelurolatos de lítio ou magnésio para obtenção dos respectivos ácidos telurocarboxílicos. Os organoiltelurolatos foram preparados a partir da reação do telúrio elementar com o organometálico desejado, evitando a manipulação de diteluretos alquílicos que apresentam odores desagradáveis. As reações de abertura de lactonas são de fácil execução e levam aos produtos em bons rendimentos (60 - 88 %). Além disso, há a possibilidade de transformação funcional dos produtos para alcoóis, a partir de uma redução in situ, ou para acil derivados, por meio da esterificação de Steglich. Os alcoóis obtidos são precursores sintéticos das respectivas espécies dilitiadas. Adicionalmente, foram preparados teluretos de alquil arila funcionalizados a partir da reação entre alquiltelurolatos de lítio com iodetos de arila catalisada por CuI (5 mol %). Também foi explorada a influência de ligantes, o que levou a um aumento do rendimento das reações testadas. Também foi estudada a reatividade de n-butilteluretos vinílicos e arílicos com reagentes organometálicos. Ou seja, foi estudada a reação de troca telúrio/metal com compostos organoilzinco e organoilmanganês. As reações com compostos de organoilzinco apresentaram resultados insatisfatórios, devido à baixa seletividade de transferência de grupos ligados ao zinco. As reações com compostos de manganês apresentaram bons resultados, com seletividade na transferência de ligantes e bons rendimentos dos produtos de captura dos compostos de organoilmanganês com eletrófilos. Foi estudada também a reação de acoplamento cruzado entre compostos de aril Grignard e teluretos de butil-vinila na presença de cloreto de manganês e iodeto de cobre (MnCl2/CuI). A reação ocorreu com elevada estereosseletividade e com rendimentos de moderados a bons. / In this PhD thesis synthetic methodologies for the preparation of organic compounds of tellurium employing organometallic reagents were developed. Initially, the SN2 type opening reaction of lactones by means of lithium or magnesium organotellurolates leading to the corresponding carboxylic acids was studied. The metal organotellurolates were prepared by reacting elemental tellurium with organolithium or Grignard reagents, avoiding the manipulation of bad smelling dialkylditellurides. The opening reactions occured easily, leading to the products in good yields (60 - 88 %). The tellurocarboxylic acids were transformed into alcohols by in situ reduction or into acyl derivatives, by a Steglich esterification. The obtained alcohols are precursors of the corresponding dilithium species by reaction with n-butyllithium. Additionally, functionalized arylbutyltellurides were prepared by reacting lithium alkyltellurolates with functionalized aryl iodides in the presence of CuI (5 mol %). The influence of ligands was also explored, leading to improved yields. It was also investigated the reactivity of vinyl butyltellurides with organometallic reagents. The tellurium/metal exchange reaction with organozinc and organomanganese compounds was studied. The reactions with organozinc compounds presented unsatisfactory results, in view of the low selectivity transfer of the groups linked to zinc. The reaction with organomanganese compounds presented better results in view of the fast Te/Mn exchange reaction, selectivity in the ligand transfer and good yields of the organomanganese capture products with electrophiles. It was also studied the cross-coupling reaction between aryl Grignard reagents and vinyl butyl tellurides in the presence of manganese chloride and copper iodide (MnCl2/CuI). The reaction occuried with high stereosselectivity and in moderate to good yields.

Acoplamento cruzado

Cloreto de manganês

Iodeto de cobre

Lactonas

Teluretos alquílicos oxigenados

Teluretos arílicos

Teluretos vinílicos

Telúrio

Troca telúrio/metal

Alkyl(oxy)tellurides

Aryltellurides

Copper iodide

Cross-coupling

Lactones

Manganese chloride

Tellurium

Tellurium/metal exchange

Vinyltellurides

Design And Development Of Synthetic Methods Using Metal-Mediated And Metal Free Redox Reactions : Novel C-H Activations, Reductions And Oxidative Transformations

Lamani, Manjunath

10 1900

The thesis entitled “Design and Development of Synthetic Methods using Metal-mediated and Metal-free Redox Reactions: Novel C-H Activations, Reductions and Oxidative Transformations” is presented in 4 chapters Chapter 1; Iodine catalyzed amination of benzoxazoles: efficient metal free route to 2-aminobenzoxazoles under mild conditions. The Chapter 1 of this thesis describes iodine catalyzed C-H activation of benzoxazole with primary and secondary amines to form oxidative aminated products. Selective C-H oxidation is a frontline area of modern chemical research as it offers the opportunities to new avenues and more direct synthetic strategies for the synthesis of complex organic molecules.1 In this context, transition metals such as palladium copper, nickel etc, are used extensively for the functional group directed C-H activation, and thus provides new, rapid, low-cost, and environmentally benign protocols for the construction of new chemical bonds.2 During the past two decades iodine and hypervalent iodine have been focus of great attention as they provide mild, chemoselective and environmentally benign strategies in contrast to toxic metal oxidants.3 In this chapter, a facile metal-free route of oxidative amination of benzoxazole with secondary or primary amines in the presence of catalytic amount of iodine (5 mol%) in aq tert-butyl hydroperoxide (1equiv) and AcOH (1.1 equiv) at ambient temperature, under the solvent-free reaction condition is presented. This user-friendly method to form C-N bonds produces tert-butanol and water as the by-products, which are environmentally benign. A wide range of benzoxazole derivatives containing electron-donating and electron-withdrawing groups were coupled with both primary and secondary amines (Scheme 1). Application of this methodology is demonstrated by synthesizing therapeutically active benzoxazoles by reacting 5-chloro-7-methylbenzoxazole with N-methylpiperazine and N-ethylhomopiperazine to obtain corresponding N-aminatedbenzaxozoles, which exhibit antidiarrhetic activity (Scheme 2).4 Scheme 2 Chapter 2: NIS catalyzed reactions. amidation of acetophenones and oxidative amination of propiophenones Chapter 2 is divided in to 2 parts. Part 1 describes the synthesis of α-ketoamides by using acetophenone and secondary amine in the presence of N-iodosuccinamide and TBHP in acetonitrile at room temperature, whereas Part 2 reveals the synthesis of 2-aminoketones by reacting aryl alkyl ketones and suitable secondary amine in the presence of NIS and TBHP. Part 1: Oxidative amidation, synthesis of α-ketoamide: Alpha α-ketoamides are important intermediates in organic synthesis that are present in a variety of natural products, and pharmaceutically active compounds. Herein, a mild and efficient conversion of acetophenones to α-ketoamide is documented by using aq.TBHP and N-iodosuccinamide (NIS) as a catalyst, at ambient temperature. This amidation reaction was found to be versatile as several aetophenone derivitives containing electron-withdrawing and electron-donating substituents underwent a facile amidation. It was also found that acetyl derivatives of heterocylic compounds could be easily converted to their corresponding ketoamides (few examples are shown in Scheme 3).5 Scheme3 Part 2 of Chapter 2 narrates a novel amination of propiophenone and its derivatives catalysed by NIS in the presence of TBHP to furnish their corresponding 2-aminoketone derivatives (Scheme 4). These derivatives are ubiquitous scaffolds that are present in a wide variety of therapeutic agents. Some of these compounds are used in the treatment of depression, smoking cessation, as monoamine uptake inhibitors, rugs for cancer. They are photoinitiators, precursors to β-aminoalcohols, such as pseudoephedrine analogues. 2-Aminoacetophenone analogues are also important intermediates for the formation of several heterocyclic compounds and are active moieties in several important drugs such as ifenprodil, Scheme 4. Chapter 3: Efficient oxidation of primary azides to nitriles This Chapter is divided in to 2 parts, which presents the oxidation of primary azides to their corresponding nitriles. Part 1: An Efficient oxidation of primary azides catalyzed by copper iodide: a convenient method for the synthesis of nitriles In Part 1, an efficient oxidation of primary azides catalyzed by copper iodide to their corresponding nitriles is reported. Herein, the oxidation of primary azide to nitrile is performed using catalytic amount of copper iodide, and aq TBHP in water at 100 ° C. This methodology is compatible with a wide range of primary benzylic azides that contain electron-donating and electron-withdrawing functional groups. The oxidation was found to be selective and a number of oxidizable functional groups were well-tolerated during the reaction conditions (few examples are shown in Scheme 5).6 Scheme 6 Furthermore, oxidation of secondary azides furnished the corresponding ketones in excellent yields (Scheme 6).6 In the Part 2 of Chapter 3, a non-metal catalysed oxidation of primary azides to nitriles at ambient temperature is reported. This part reveals the oxidation of primary azides to nitriles by employing catalytic amounts of KI (25 mol%), DABCO (25 mol%) and aq. TBHP (3 equiv., 70% solution in water). This reaction provides a good selectivity, as double and triple bonds were not oxidized under the reaction conditions. Additionally, chemoselective oxidation of benzylicazides against aliphatic azides increases the potential application of the present method (Scheme 7).7 Chapter 4: Chemoeselective reduction of olefins Part 1: Iron chloride catalysed aerobic reduction of olefins using aqueous hydrazine at ambient temperature Chapter 4 describes the reduction olefins and acetylenes, which is presented in two Parts. Part 1 documents utility of hydrazine (1.5 equiv) for the chemoselective reduction of nonpolarised carbon-carbon bond using iron catalysts. In this part, a chemoselective reduction of alkenes and alkynes in the presence of a variety of reducible functional groups is demonstrated (Scheme 8). The highlight of the present method is that the reduction proceeds well at room temperature and requires only 1.5 equiv of hydrazine hydrate. The olefin reduction by hydrazine depends upon the controlled release of diimide during the reduction. Generally, metal catalyzed reduction of olefins employ a large excess of hydrazine (10-20 equiv), which might be attributed to uncontrolled release of diimide during the reduction.8 Scheme 8 Part 2: Guanidine catalyzed aerobic reduction: a selective aerobic hydrogenation of olefins using aqueous hydrazine In Chapter 4, part 2, organocatalytic generation of diimide and its utility to reduce the double bonds is presented. Generation of diimide in situ by using organo catalysts and its use for the reduction of carbon-carbon double bond is one of the interesting topics in organic chemistry. It has been shown in this part of the thesis that the reduction of olefin at room temperature can be efficiently performed by using 10 mol% of guanidine nitrate, 2 equiv of aqueous hydrazine in oxygen atmosphere. This method tolerates a variety of reducible functional groups such as nitro, azido, and bromo and protective groups such as methyl ethers, benzyl ethers, and Cbz groups. It is also shown that terminal olefin can be selectively reduced in the presence of internal olefin (Scheme 9). Unlike other methods that employ diimide strategy, the present method is shown to be efficient in reducing substrates those contain internal double bonds such as cinnamyl alcohol and its derivatives

Organic Chemical Reactions

Aminobenzoxazoles

Propiophenones - Oxidative Amination

Metal-Mediated Redox Reactions

Metal-Free Redox Reactions

Oxidation Reduction Reaction

Redox Reaction

Propiophenones

Acetophenones - Amidation

Organic Chemistry