Avaliação de agente de acoplamento polimérico no comportamento térmico de compostos PP/FV

Bernardes, Giordano Pierozan

January 2016

Polipropileno (PP) é um termoplástico com ótimo balanço de propriedades, baixo custo e largo espectro de aplicações. Seu uso como material de engenharia é limitado pelos seus valores relativamente baixos de propriedades mecânicas. A adição de reforço ao PP melhora suas propriedades termomecânicas, tornando-o adequado para fabricação de peças de engenharia como composto termoplástico. Fibra de vidro (FV) é o reforço mais empregado em compostos de PP devido a maior resistência mecânica específica gerada no PP e por atuar como agente nucleante. Devido à diferença entre as naturezas das ligações secundárias, há pouca afinidade química entre PP-FV, sendo necessária a modificação interfacial através de agentes de acoplamento poliméricos (AA) para melhorar o desempenho termomecânico deste composto. Averiguou-se neste trabalho a influência de dois AA, um à base de PP e outro à base de EPDM, ambos graftizados com anidrido maleico (PAM e EAM, respectivamente), no comportamento térmico do composto PP∕FV. Os compostos PP30FV-AA foram preparados em extrusora dupla rosca ZSK 26, e posteriormente injetados em uma injetora Airburg para obtenção de corpos de prova utilizando teor fixo de 30% FV e teores de 0,5∕1,0∕2,0% AA. O PP e seus compostos foram caracterizados via microscopia óptica acoplada à placa Hot Stage, cristalização isotérmica e não isotérmica por calorimetria (DSC), resistência à deflexão térmica (HDT), morfologia da fratura (MEV) e comportamento viscoelástico (DMA) para analisar a influência do AA e da FV. Os resultados obtidos foram avaliados estatisticamente via metodologia ANOVA (Analysis of Variance). O efeito sinérgico FV-AA na cristalização isotérmica do PP foi dependente da combinação temperatura-natureza-teor de AA, sendo a temperatura o fator preponderante. A interação interfacial entre a matriz- reforço foi substancialmente favorecida pelo PAM. O uso de EAM retardou a cristalização do PP, enquanto que o PAM favoreceu este processo. Constatou-se que o AA teve pouca influência no tempo de meia-vida de cristalização nas menores isotermas e, para isotermas mais próximas à fusão do PP, o PAM apresentou menores valores deste parâmetro. Os valores de deflexão térmica foram semelhantes para todas as formulações contendo PAM, enquanto que a adição de EAM decresceu esta propriedade. Em temperaturas inferiores à transição vítrea (Tg) do PP, todos os compostos com AA apresentaram menor módulo elástico em relação ao composto puro; em temperaturas superiores à Tg, o PAM favoreceu aumentou esta propriedade na faixa de temperatura em que o composto usualmente é utilizado. / Polypropylene (PP) features by its properties balance, price and large array of applications. However, its use as engineering component is limited by relative low mechanical properties. PP reinforcement improves its thermomechanical properties, turning it into suitable to produce engineering components as a reinforced thermoplastic composite. Glass fiber (GF) is the most usual reinforce utilized in PP due to its great specific mechanical strength elastic modulus and nucleation capability. In reason of different secondary bonds between PP and GF, it is mandatory to modify the interface between these domains through polymeric coupling agents (CA) to improve thermomechanical performance. It was evaluated the influence of two CA based on PP and EPDM grafted with maleic anhydride (PAM and EAM) on thermal behavior of PP∕GF composite. PP30GF-CA composites were prepared in a twin screw extrusor ZSK 26 and injected in an injector Airburg with fixed GF content (30%) and different CA contents (0.5∕1.0∕2.0%). PP and PP composites were analyzed by optical microscopy with Hot Stage, isothermal and non-isothermal crystallization (DSC), as well as viscoelastic behavior. The results were statistically evaluated by ANOVA (Analysis of Variance) methodology. The synergic role between GF∕CA in PP crystallization was dependent on temperature-nature-CA content, mainly influenced by temperature. Interfacial adhesion was mainly favored by PAM. The results pointed a possible PP isotherm crystallization retardant by EAM, whereas PAM significantly favored this same process. CA presence in PP30GF composite did not influence crystallization half-life time values in lower isotherms, while in isotherms near PP melting temperature, PAM considerably decreased this parameter. Deflection thermal values were not affected by PAM, while EAM decreased this property in whole formulations. CA did not improved PP∕GF elastic modulus below PP glass transition (Tg), while in temperatures above Tg, PAM improved PP-GF this same parameter.

Polipropileno

Fibras de vidro

Agente de acoplamento

Polypropylene

Glass fiber

Coupling agent

Maleic anhydride

CHEMICAL TOPPING BURLEY TOBACCO

Richmond, Mitchell D.

01 January 2018

The act of topping tobacco (Nicotiana tabacum L.) involves the removal of the terminal bud or inflorescence of the tobacco plant. This practice ordinarily is accomplished by manually removing the top of each tobacco plant in an entire field which is labor intensive and costly. Chemical topping utilizes sucker control products to inhibit the terminal bud and axillary bud growth without manually removing the top of the tobacco plant. There were several research objectives in order to determine the utility of a chemical topping system: 1) determine if burley tobacco could be chemically topped with currently registered suckercide products while maintaining control of subsequent sucker growth; 2) compare chemical topping to manual topping for yield and leaf quality; 3) identify burley tobacco varieties that are better suited for chemical topping systems; 4) determine the optimum plant growth stage at which chemical topping treatments should be applied; and 5) identify genes that are differentially expressed following suckercide applications. To pursue our objectives, studies were initiated investigating the optimum timing of application, ideal variety maturity, and efficacy of suckercide applications using combinations of maleic hydrazide (MH), butralin, and fatty alcohols (FA). The terminal bud was not well controlled with FA or butralin alone nor was acceptable sucker control or total yield achieved. Our data suggest that chemically topping burley tobacco with a tank mixture of MH and a local systemic may be a suitable alternative to manual topping, as total yield and leaf quality grade index were not significantly different and total TSNA and MH residues were not significantly higher compared to manual topping. The 10% button and 50% button application timings were best suited for chemical topping practices. Treatments that targeted the 10% bloom stage did not completely halt flower development, but all application timings resulted in excellent sucker control. Medium and late maturity burley varieties were found to be suitable for chemical topping methods; however, timing the suckercide application may be less difficult in later maturing varieties. Chemically topping burley tobacco at 10 to 50% button stages with a tank mixture of MH and a local systemic suckercide was found to be a suitable alternative to manual topping, and would potentially result in labor savings for burley tobacco growers. Expression of genes related to phytohormones, meristem development, cell division, DNA repair and recombination were affected following MH treatment, which likely leads to the inhibition of apical and axillary meristem development.

Chemical Topping

Tobacco

Maleic Hydrazide

Agriculture

Agronomy and Crop Sciences

Molecular Genetics

An investigation into the synthesis of poly(co-maleic anhydride/iso-butyl vinyl ether)with RAFT polymerisation.

Lea, Santa Cinzia, Chemical Sciences & Engineering, Faculty of Engineering, UNSW

January 2006

Poly (co iso-butyl vinyl ether-alt-maleic anhydride), an alternating copolymer, was synthesised. For this class of copolymers the formation of an electron-donor complex is invoked to explain their microstructure in which the two comonomers strictly alternate. Due to its polarity, this copolymer constitutes a potential additive for imparting hydrophilic properties to a hydrophobic matrix. In order to obtain narrow molecular weight polymers and study the relation between the molecular weight of this additive and its ability to migrate to the host polymer surface, chain transfer agents were introduced in the system and also the Reversible Addition-Fragmentation chain Transfer (RAFT) process was employed. Free radical polymerisation was first carried out to allow for a comparison with the RAFT process and kinetics of copolymerisation was studied by NIR-FTIR and 1H NMR spectroscopy in order to analyse the rate of reaction of each comonomer. Dibenzyl trithiobenzoate, 3-benzyl sulfanyl thiocarbonyl sulfanyl-propionic acid and dibenzyl trithiobenzoate were used as RAFT agents. Results demonstrate that only benzyl dithiobenzoate is able to control the molecular weight of this copolymer and decrease its polydispersity index; possible reasons laying behind this result are discussed. It was also found that, in particular in the presence of benzyl dithiobenzoate, poly(iso-butyl vinyl ether) forms. This is an unusual phenomenon considering that the free radical polymerisation affords alternating copolymers and that iso-butyl vinyl ether is a monomer that polymerises through the cationic process. Experiments were carried out in various solvents in an attempt to counteract this side reaction, but no appreciable correlation between the properties of the solvents and the formation of homopolymer were found. Various hypothesis are considered, however it is likely that, in the conditions adopted, the presence of the RAFT agents alters the equilibrium constant of complex formation favouring the synthesis of the homopolymer. In addition to this side???reaction also inhibition of the copolymerisation reaction was at times encountered and an investigation into this phenomenon was also conducted.

RAFT

alternating copolymer.

Nanocomposites Based On Blends Of Polystyrene

Dike, Ali Sinan

01 June 2011

Due to brittleness of polystyrene, PS, its usage area is restricted. To solve this problem and expand the usage area of PS, it can be blended and impact modified with an elastomeric material. In this study, the decrease in the modulus and tensile strength imparted by impact modification was overcome by reinforcing this mixture by incorporating organoclays and producing nanocomposites. This study consists of two parts. In the first part of this study three different types of aliphatic elastomeric materials and three different types of organoclays were used and their effects on the morphology, mechanical, thermal, and rheological properties of PS were investigated. Lotader AX8900, Lotader AX8840 and Lotader 2210 were chosen as the aliphatic elastomeric compatibilizers / and Cloisite

QD Polymers, Macromolecules 380-388

Synthesis And Characterization Of Polypropylene Based Ion-exchange Resin

Ecevit, Safiye Tuba

01 March 2012

The synthesis of ion-exchange resin which can be used in various separation and chemical purposes, such as diffusion dialysis, electro dialysis, electrolysis and fuel cells has of considerable interest. For all these applications, the interactions of the ionic groups and the resulted morphologies are critical for establishing the unique properties. Considerable researches have been continued to understand the microstructure of these materials. The aim of this study is to synthesize polypropylene (PP) based ion exchange resins and to investigate their ion-exchange properties. In the first part of this study polypropylene was functionalized by grafting maleic anhydride onto the polypropylene and the product was characterized by ATR. The effect of maleic anhydride introduced to the grafting medium and the effect of the radical initiator on the maleic anhydride content of the MA-g-PP samples were investigated. In the second part, neutralization of the MA-g-PP samples with Na+, K+, Mg2+ and Ca2+ ions and peroxide cross-linking of neutralized MA-g-PP samples were performed. Characterization of the neutralized MA-g-PP samples were performed by ATR and SEM-EDX. In the last part of the study, ion exchange properties of MA-g-PP resins towards Cu2+, Co2+, Cd2+, Pb2+ and Fe3+ ions at different pHs were investigated by batch equilibrium method. Rate of metal uptake, concentration effect on the metal uptake and regeneration of the MA-g-PP samples were also examined.

QD Polymers, Macromolecules 380-388

NOZZLE TYPE AND ARRANGEMENT ALTERNATIVES FOR IMPROVED APPLICATION OF SUCKERCIDES IN BURLEY TOBACCO (<i>Nicotiana tabacum</i> L.)

Neal, Beau Robert

01 January 2011

Maleic hydrazide (MH) applications have been standard practice for sucker control in burley tobacco (Nicotiana tabacum L.) production for the last half-century because it is relatively inexpensive, effective and easy to apply. Non-MH suckercides such as fatty alcohols and local systemics can be utilized to reduce or replace MH and lower undesirable residues in the cured leaf. The objective of this study was to evaluate various nozzle types and arrangements for efficiency to determine if sucker control with fatty alcohol could be consistently improved over the currently used TG3-5-3 arrangement, as well as examine sprayer positioning (center vs. off-center) and leaf orientation variables using artificial plants. In the field study, the TG4-6-4 arrangement performed the best (p<0.05) when applying the same volume per hectare providing 80% sucker control with fatty alcohol only, not significantly different (p>0.05) than MH+Butralin treatment. For the artificial plant study, the TG4-6-4 provided more solution collected (p<0.05) at leaf axils as well as the highest percent of solution intercepted. Sprayer position and leaf orientation had less effect on solution intercepted with this arrangement than it did with the TG3-5-3. Results from this study support a recommendation of the TG4-6-4 over the TG3-5-3 for the application of contact chemicals for sucker control in burley tobacco.

Burley Tobacco

Sucker Control

Maleic Hydrazide

Fatty Alcohol

Nozzle Arrangement

Agriculture

Agronomy and Crop Sciences

Plant Sciences

An investigation into the synthesis of poly(co-maleic anhydride/iso-butyl vinyl ether)with RAFT polymerisation.

Lea, Santa Cinzia, Chemical Sciences & Engineering, Faculty of Engineering, UNSW

January 2006

Poly (co iso-butyl vinyl ether-alt-maleic anhydride), an alternating copolymer, was synthesised. For this class of copolymers the formation of an electron-donor complex is invoked to explain their microstructure in which the two comonomers strictly alternate. Due to its polarity, this copolymer constitutes a potential additive for imparting hydrophilic properties to a hydrophobic matrix. In order to obtain narrow molecular weight polymers and study the relation between the molecular weight of this additive and its ability to migrate to the host polymer surface, chain transfer agents were introduced in the system and also the Reversible Addition-Fragmentation chain Transfer (RAFT) process was employed. Free radical polymerisation was first carried out to allow for a comparison with the RAFT process and kinetics of copolymerisation was studied by NIR-FTIR and 1H NMR spectroscopy in order to analyse the rate of reaction of each comonomer. Dibenzyl trithiobenzoate, 3-benzyl sulfanyl thiocarbonyl sulfanyl-propionic acid and dibenzyl trithiobenzoate were used as RAFT agents. Results demonstrate that only benzyl dithiobenzoate is able to control the molecular weight of this copolymer and decrease its polydispersity index; possible reasons laying behind this result are discussed. It was also found that, in particular in the presence of benzyl dithiobenzoate, poly(iso-butyl vinyl ether) forms. This is an unusual phenomenon considering that the free radical polymerisation affords alternating copolymers and that iso-butyl vinyl ether is a monomer that polymerises through the cationic process. Experiments were carried out in various solvents in an attempt to counteract this side reaction, but no appreciable correlation between the properties of the solvents and the formation of homopolymer were found. Various hypothesis are considered, however it is likely that, in the conditions adopted, the presence of the RAFT agents alters the equilibrium constant of complex formation favouring the synthesis of the homopolymer. In addition to this side???reaction also inhibition of the copolymerisation reaction was at times encountered and an investigation into this phenomenon was also conducted.

RAFT

alternating copolymer.

Avaliação de agente de acoplamento polimérico no comportamento térmico de compostos PP/FV

Bernardes, Giordano Pierozan

January 2016

Polipropileno (PP) é um termoplástico com ótimo balanço de propriedades, baixo custo e largo espectro de aplicações. Seu uso como material de engenharia é limitado pelos seus valores relativamente baixos de propriedades mecânicas. A adição de reforço ao PP melhora suas propriedades termomecânicas, tornando-o adequado para fabricação de peças de engenharia como composto termoplástico. Fibra de vidro (FV) é o reforço mais empregado em compostos de PP devido a maior resistência mecânica específica gerada no PP e por atuar como agente nucleante. Devido à diferença entre as naturezas das ligações secundárias, há pouca afinidade química entre PP-FV, sendo necessária a modificação interfacial através de agentes de acoplamento poliméricos (AA) para melhorar o desempenho termomecânico deste composto. Averiguou-se neste trabalho a influência de dois AA, um à base de PP e outro à base de EPDM, ambos graftizados com anidrido maleico (PAM e EAM, respectivamente), no comportamento térmico do composto PP∕FV. Os compostos PP30FV-AA foram preparados em extrusora dupla rosca ZSK 26, e posteriormente injetados em uma injetora Airburg para obtenção de corpos de prova utilizando teor fixo de 30% FV e teores de 0,5∕1,0∕2,0% AA. O PP e seus compostos foram caracterizados via microscopia óptica acoplada à placa Hot Stage, cristalização isotérmica e não isotérmica por calorimetria (DSC), resistência à deflexão térmica (HDT), morfologia da fratura (MEV) e comportamento viscoelástico (DMA) para analisar a influência do AA e da FV. Os resultados obtidos foram avaliados estatisticamente via metodologia ANOVA (Analysis of Variance). O efeito sinérgico FV-AA na cristalização isotérmica do PP foi dependente da combinação temperatura-natureza-teor de AA, sendo a temperatura o fator preponderante. A interação interfacial entre a matriz- reforço foi substancialmente favorecida pelo PAM. O uso de EAM retardou a cristalização do PP, enquanto que o PAM favoreceu este processo. Constatou-se que o AA teve pouca influência no tempo de meia-vida de cristalização nas menores isotermas e, para isotermas mais próximas à fusão do PP, o PAM apresentou menores valores deste parâmetro. Os valores de deflexão térmica foram semelhantes para todas as formulações contendo PAM, enquanto que a adição de EAM decresceu esta propriedade. Em temperaturas inferiores à transição vítrea (Tg) do PP, todos os compostos com AA apresentaram menor módulo elástico em relação ao composto puro; em temperaturas superiores à Tg, o PAM favoreceu aumentou esta propriedade na faixa de temperatura em que o composto usualmente é utilizado. / Polypropylene (PP) features by its properties balance, price and large array of applications. However, its use as engineering component is limited by relative low mechanical properties. PP reinforcement improves its thermomechanical properties, turning it into suitable to produce engineering components as a reinforced thermoplastic composite. Glass fiber (GF) is the most usual reinforce utilized in PP due to its great specific mechanical strength elastic modulus and nucleation capability. In reason of different secondary bonds between PP and GF, it is mandatory to modify the interface between these domains through polymeric coupling agents (CA) to improve thermomechanical performance. It was evaluated the influence of two CA based on PP and EPDM grafted with maleic anhydride (PAM and EAM) on thermal behavior of PP∕GF composite. PP30GF-CA composites were prepared in a twin screw extrusor ZSK 26 and injected in an injector Airburg with fixed GF content (30%) and different CA contents (0.5∕1.0∕2.0%). PP and PP composites were analyzed by optical microscopy with Hot Stage, isothermal and non-isothermal crystallization (DSC), as well as viscoelastic behavior. The results were statistically evaluated by ANOVA (Analysis of Variance) methodology. The synergic role between GF∕CA in PP crystallization was dependent on temperature-nature-CA content, mainly influenced by temperature. Interfacial adhesion was mainly favored by PAM. The results pointed a possible PP isotherm crystallization retardant by EAM, whereas PAM significantly favored this same process. CA presence in PP30GF composite did not influence crystallization half-life time values in lower isotherms, while in isotherms near PP melting temperature, PAM considerably decreased this parameter. Deflection thermal values were not affected by PAM, while EAM decreased this property in whole formulations. CA did not improved PP∕GF elastic modulus below PP glass transition (Tg), while in temperatures above Tg, PAM improved PP-GF this same parameter.

Polipropileno

Fibras de vidro

Agente de acoplamento

Polypropylene

Glass fiber

Coupling agent

Maleic anhydride

Avaliação de agente de acoplamento polimérico no comportamento térmico de compostos PP/FV

Bernardes, Giordano Pierozan

January 2016

Polipropileno (PP) é um termoplástico com ótimo balanço de propriedades, baixo custo e largo espectro de aplicações. Seu uso como material de engenharia é limitado pelos seus valores relativamente baixos de propriedades mecânicas. A adição de reforço ao PP melhora suas propriedades termomecânicas, tornando-o adequado para fabricação de peças de engenharia como composto termoplástico. Fibra de vidro (FV) é o reforço mais empregado em compostos de PP devido a maior resistência mecânica específica gerada no PP e por atuar como agente nucleante. Devido à diferença entre as naturezas das ligações secundárias, há pouca afinidade química entre PP-FV, sendo necessária a modificação interfacial através de agentes de acoplamento poliméricos (AA) para melhorar o desempenho termomecânico deste composto. Averiguou-se neste trabalho a influência de dois AA, um à base de PP e outro à base de EPDM, ambos graftizados com anidrido maleico (PAM e EAM, respectivamente), no comportamento térmico do composto PP∕FV. Os compostos PP30FV-AA foram preparados em extrusora dupla rosca ZSK 26, e posteriormente injetados em uma injetora Airburg para obtenção de corpos de prova utilizando teor fixo de 30% FV e teores de 0,5∕1,0∕2,0% AA. O PP e seus compostos foram caracterizados via microscopia óptica acoplada à placa Hot Stage, cristalização isotérmica e não isotérmica por calorimetria (DSC), resistência à deflexão térmica (HDT), morfologia da fratura (MEV) e comportamento viscoelástico (DMA) para analisar a influência do AA e da FV. Os resultados obtidos foram avaliados estatisticamente via metodologia ANOVA (Analysis of Variance). O efeito sinérgico FV-AA na cristalização isotérmica do PP foi dependente da combinação temperatura-natureza-teor de AA, sendo a temperatura o fator preponderante. A interação interfacial entre a matriz- reforço foi substancialmente favorecida pelo PAM. O uso de EAM retardou a cristalização do PP, enquanto que o PAM favoreceu este processo. Constatou-se que o AA teve pouca influência no tempo de meia-vida de cristalização nas menores isotermas e, para isotermas mais próximas à fusão do PP, o PAM apresentou menores valores deste parâmetro. Os valores de deflexão térmica foram semelhantes para todas as formulações contendo PAM, enquanto que a adição de EAM decresceu esta propriedade. Em temperaturas inferiores à transição vítrea (Tg) do PP, todos os compostos com AA apresentaram menor módulo elástico em relação ao composto puro; em temperaturas superiores à Tg, o PAM favoreceu aumentou esta propriedade na faixa de temperatura em que o composto usualmente é utilizado. / Polypropylene (PP) features by its properties balance, price and large array of applications. However, its use as engineering component is limited by relative low mechanical properties. PP reinforcement improves its thermomechanical properties, turning it into suitable to produce engineering components as a reinforced thermoplastic composite. Glass fiber (GF) is the most usual reinforce utilized in PP due to its great specific mechanical strength elastic modulus and nucleation capability. In reason of different secondary bonds between PP and GF, it is mandatory to modify the interface between these domains through polymeric coupling agents (CA) to improve thermomechanical performance. It was evaluated the influence of two CA based on PP and EPDM grafted with maleic anhydride (PAM and EAM) on thermal behavior of PP∕GF composite. PP30GF-CA composites were prepared in a twin screw extrusor ZSK 26 and injected in an injector Airburg with fixed GF content (30%) and different CA contents (0.5∕1.0∕2.0%). PP and PP composites were analyzed by optical microscopy with Hot Stage, isothermal and non-isothermal crystallization (DSC), as well as viscoelastic behavior. The results were statistically evaluated by ANOVA (Analysis of Variance) methodology. The synergic role between GF∕CA in PP crystallization was dependent on temperature-nature-CA content, mainly influenced by temperature. Interfacial adhesion was mainly favored by PAM. The results pointed a possible PP isotherm crystallization retardant by EAM, whereas PAM significantly favored this same process. CA presence in PP30GF composite did not influence crystallization half-life time values in lower isotherms, while in isotherms near PP melting temperature, PAM considerably decreased this parameter. Deflection thermal values were not affected by PAM, while EAM decreased this property in whole formulations. CA did not improved PP∕GF elastic modulus below PP glass transition (Tg), while in temperatures above Tg, PAM improved PP-GF this same parameter.

Polipropileno

Fibras de vidro

Agente de acoplamento

Polypropylene

Glass fiber

Coupling agent

Maleic anhydride

Estudo da reação de Heck de anidridos maleicos com sais de arenodiazônio e suas aplicações sintéticas / Study of the Heck reaction of maleic anhydrides with arenediazonium salts and their synthetic applications

Miranda, Karen Fabiane Canto

17 August 2018

Orientador: Carlos Roque Duarte Correia / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-17T04:40:41Z (GMT). No. of bitstreams: 1 Miranda_KarenFabianeCanto_D.pdf: 2096574 bytes, checksum: b7fd48d07ff428a29ed0b7b0b0c1ad8c (MD5) Previous issue date: 2010 / Resumo: O primeiro capítulo deste trabalho concentra-se no estudo metodológico da reação de Heck com anidrido maleico empregando diversos sais de arenodiazônio. A reação foi investigada em diversas condições e, num primeiro momento, foi possível, utilizando acetato de paládio como catalisador, preparar uma série de anidridos maleicos mono e diarilados através da reação com sais de diazônio contendo grupos doadores de elétrons. Também investigou-se a reação empregando sais de diazônio contendo grupos retiradores de elétrons, entretanto, com o sistema catalítico utilizado inicialmente, não foi possível obter os correspondentes anidridos maleicos substituídos. A utilização do catalisador POPd solucionou o problema do emprego de sais de diazônio contendo grupos retiradores de elétrons. Desse modo foi possível preparar uma série de anidridos maleicos mono e diarilados, com diferentes demandas eletrônicas e padrões de substituição, em rendimentos satisfatórios. Além disso, foi possível preparar também anidridos maleicos dissubstituídos simétricos e não simétricos. Vários dos anidridos maleicos preparados apresentaram fluorescência. O segundo capítulo mostra a aplicabilidade da metodologia desenvolvida. É apresentada a síntese do alcalóide de origem marinha Policitrina A através de uma rota sintética curta, que tem como etapas chaves duas reações de Heck consecutivas com anidrido maleico empregando sal de diazônio. Neste capítulo também são mostrados os esforços visando à síntese total do alcalóide Policitrina B e a síntese formal do mesmo / Abstract: Chapter one of this work deals with methodological studies of the Heck reaction with maleic anhydride using several arenediazonium salts. Several reaction conditions were investigated and at first, it was possible by the use of palladium acetate as catalyst, to prepare a series of mono and diarylated maleic anhydrides through reaction with diazonium salts bearing electron donating groups. The reactions using diazonium salts bearing electron withdrawing groups were also investigated although, with the previous catalytic system used, the correspondent substituted maleic anhydrides weren¿t obtained. The use of POPd catalyst solved the problematic use of diazonium salts bearing electron withdrawing groups. In this way, it was possible to prepare a series of mono and diarylated maleic anhydrides, with different electron demanding conditions and substitution patterns, with satisfactory yields. Besides this, it was possible to prepare symmetric and non-symmetric bi-substituted maleic anhydrides too. Several of this maleic anhydrides prepared displayed fluorescence. Chapter two presents applications of the methodology developed in chapter one. The synthesis of marine alkaloid Polycitrin A is presented through a short synthetic route which has as key steps two consecutive Heck reactions with maleic anhydride using diazonium salt. Efforts towards total synthesis of alkaloid Polycitrin B as well as its formal synthesis are also shown in this chapter / Doutorado / Quimica Organica / Doutor em Ciências

Reação de Heck

Anidrido maleico

Sais de arenodiazônio

Heck reaction

Maleic anhydride

Arenediazonium salts