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Synthesis and Characterization of ortho-Phenyleneethynylenes and Diphenylamine PolymersShotwell, Sandra Leigh 13 January 2006 (has links)
In the first part of this thesis, the synthesis, characterization and investigation of ortho-phenyleneethynylenes containing heterocycles, are presented. These compounds display changes in absorption and emission spectra varying with their functionalization and size. These compounds also have the ability to coordinate with metals. The synthesis of coordination compounds and their crystallographic data are reported. The synthesis and characterization of tetraethynyl thiophene compounds containing pyridines are also presented. These compounds exhibit differences in absorption and emission spectra upon exposure to various metal salts. The final topic to be discussed is the synthesis and characterization of diphenyl amine polymers. These polymers could in principle be used in NLO applications or light emitting devices.
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Postharvest treatments to reduce chilling injury symptoms in stored mangoesTasneem, Azra January 2004 (has links)
The market life of many fruits and vegetables can be extended through storage at low temperatures. Chilling injury (CI) is a major postharvest storage problem for tropical commodities. Storing these products at temperatures below their critical temperature may result in severe physiological disorders known as CI symptoms. Mangoes (Mangifera indica. L) are susceptible to CI when stored below 12 °C. Visual CI symptoms include uneven ripening, surface pitting, discoloration, shriveling and scalding. Research has been conducted to overcome these serious problems using various postharvest treatments such as hot water, methyl jasmonate (MJ) or diphenylamine (DPA) with some reduction of the incidence of CI symptoms in fruits and vegetables. / Experiments were performed to assess and compare the potential of the above-mentioned postharvest treatments to reduce the CI symptoms on mango cv. Kent. The obtained results indicated that MJ- and DPA-treatments gave significantly greater percentage of marketable fruits. / Experiments were also conducted with mangoes cv. Tommy Atkins treated with MJ and DPA before storing at low temperatures (1, 4, 7 and 10°C). The chemical treatments were successful at reducing CI symptoms of mangoes. Fruit decay was reduced during subsequent ripening. MJ-treated fruits had lower mass loss and higher total soluble solids (TSS) than the control treatment. The overall quality of MJ- and DPA-treated fruits was good with lower surface pitting and scalding compared with the control treatment. The best results were obtained at storage temperatures of 7 and 10°C. Both MJ and DPA postharvest treatments can reduce CI symptoms in mangoes cvs. Kent and Tommy Atkins when the mangoes are stored at below critical temperature.
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Postharvest treatments to reduce chilling injury symptoms in stored mangoesTasneem, Azra January 2004 (has links)
No description available.
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Polyaniline analogs polymers and nanocomposites coating for corrosion protection applicationsAwoyemi, Raymond Femi 13 August 2024 (has links) (PDF)
The economic impact of metallic corrosion on global infrastructure, spanning pipeline networks, bridges, refineries, and automobiles, is considerable. In 2013, it accounted for 3.4% of the global GDP, totaling US$ 2.5 trillion. Organic coatings have gained significance as a prominent strategy to address this widespread issue. Polyaniline (PANI), a conducting polymer, has long been recognized as an effective anti-corrosion coating. This study explores the potential of polyaniline analogs and their nanocomposites as candidates for protective organic coatings in corrosion control applications. Initially, the investigation focuses on conducting polymers with side chains comprising long, branched alkyl groups as potential corrosion suppression coatings. These polymers, containing carbazole, phenothiazine, and phenoxazine cores, serve as analogs to polyaniline. Prepared through the Buchwald/Hartwig coupling reaction, these polymers demonstrated promising corrosion suppression capabilities, as tested by potentiodynamic polarization studies and electrochemical impedance spectroscopy (EIS). Morphological characterization using scanning electron microscopy (SEM) and atomic force microscopy (AFM) revealed that phenothiazine- and carbazole-containing polymers exhibit excellent corrosion resistance, with phenothiazine displaying a protection efficiency (PE) of 95.9% and 89.0% respectively, outperforming polyaniline coating. Further exploration involved the derivatives of phenothiazine-based PANI analogs, specifically poly(heterocyclic diphenylamine) (poly-HDA), prepared through the Buchwald/Hartwig coupling reaction. Evaluation through weight loss, potentiodynamic polarization, and EIS in a 3.5 wt.% NaCl solution showcased the reduced corrosion current density on surfaces coated with long-branched alkyl-substituted phenothiazine-based PANI analogs. Moreover, the reinforcement of the phenothiazine-based PANI analog polymer was achieved by creating an epoxy-based nanocomposite with 2,5-dimethyl-1,4-phenylenediamine functionalized graphene oxide (PT/DPPD-fGO) at varying concentrations into an epoxy anticorrosive coating for AISI 4130 steel from corrosion. Results from immersion in 5 % sodium chloride solution, coupled with standard electrochemical measurements, demonstrate that PT/DPPD-fGO effectively protects AISI 4130 steel from corrosion, with coatings containing 5 % PT/DPPD-fGO exhibiting the best corrosion performance among the tested specimens. The results indicate the potential of phenothiazine- and carbazole-based PANI analogs, along with their nanocomposites, as candidates for protective organic coatings in transportation, aviation, marine, and oil and gas industrial applications.
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Biodegradation of diphenylamine and cis-dichloroetheneShin, Kwanghee 02 April 2010 (has links)
Past operational practices at chemical manufacturing facilities and widespread use of synthetic chemicals in agriculture, industry, and military operations have introduced many anthropogenic compounds to the biosphere. Some of them are readily biodegradable as a likely consequence of bacterial evolution of efficient degradation pathways, whereas others are partially degraded or persistent in the environment. Insight about biodegradation mechanisms and distribution of bacteria responsible provide the basis to predict the fate of synthetic chemicals in the environment and to enable bioremediation.
The main focus of the research described here encompasses basic science to discover pathways and evolutionary implications of aerobic biodegradation of two specific synthetic chemicals, cis-dichloroethene (cDCE) and diphenylamine (DPA). cDCE is a suspected carcinogen that frequently accumulates due to transformation of perchloroethene and trichloroethene at many contaminated sites. Polaromonas sp. strain JS666 is the only isolate able to use cDCE as the growth substrate, but the degradation mechanism was unknown. In this study, the degradation pathway of cDCE by strain JS666 and the genes involved were determined by using heterologous gene expression, inhibition studies, enzyme assays, and analysis of intermediates. The requirement of oxygen for cDCE degradation and inhibition of cDCE degradation by cytochrome P450 specific inhibitors suggested that cytochrome P450 monooxygenase catalyzes the initial steps of cDCE degradation. The finding was supported by the observation that an E. coli recombinant expressing cytochrome P450 monooxygenase catalyzes the transformation of cDCE to dichloroacetaldehyde and small amounts of the epoxide. Both the transient accumulation of dichloroacetaldehyde in cDCE degrading cultures and dichloroacetaldehyde dehydrogenase activities in cell extracts of JS666 further support a pathway involving the degradation of cDCE through dichloroacetaldehyde. Molecular phylogeny of the cytochrome P450 gene and organization of neighboring genes suggest that the cDCE degradation pathway evolved in a progenitor capable of degrading dichloroacetaldehyde by the recruitment of the cytochrome P450 monooxygenase gene from alkane assimilating bacteria. The discovery provides insight about the evolution of the aerobic cDCE biodegradation pathway and sets the stage for field applications.
DPA has been widely used as a precursor of dyes, pesticides, pharmaceuticals, and photographic chemicals and as a stabilizer for explosives, but little was known about the biodegradation of the compound. Therefore, bacteria able to use DPA as the growth substrate were isolated by selective enrichment from DPA-contaminated sediment and the degradation pathway and the genes that encode the enzymes were elucidated. Transposon mutagenesis, the sequence similarity of putative open reading frames to those of well characterized dioxygenases, and 18O2 experiments support the conclusion that the initial reaction in DPA degradation is catalyzed by a multi-component ring-hydroxylating dioxygenase. Aniline and catechol produced from the initial reaction of DPA degradation are then completely degraded via the common aniline degradation pathway. Molecular phylogeny and organization of the genes involved were investigated to provide insight about the evolution of DPA biodegradation.
The fate and transport of toxic chemicals are of a great concern at several historically contaminated sites where anoxic contaminant plumes emerge into water bodies. The release of toxic chemicals to overlying water poses a potential source of environmental exposure. Bench scale studies were conducted to evaluate the impact of biodegradation on the transport of toxic chemicals across the sediment/water interface. These studies demonstrated that substantial populations of bacteria associated with organic detritus at the interface rapidly biodegrade toxic chemicals as they migrate from contaminated sediment to overlying water, suggesting that the natural attenuation processes serve as a remedial strategy for contaminated sediments and protect the overlying water.
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Síntese e caracterização da difenil-4-amina sulfonato de cério (III) e sua aplicação como precursor do CeO2Dalto, Fernanda 15 February 2011 (has links)
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Previous issue date: 2011-02-15 / The cerium oxide is a very useful material in a series of processes among which we highlight the automotive catalysts, where it acts as a regulator of oxygen. We studied the synthesis of complex diphenyl-4-amine sulfonate cerium (III) pentahydrate, Ce (C12H10NSO3) 3.5H2O, and its application as a precursor to the oxide CeO2. The complex was synthesized in aqueous solution under argon atmosphere and protected from light. The solid obtained was characterized by elemental analysis of carbon, hydrogen and nitrogen and also by complexometry EDTA, for determining of Ce3+ in the precursor. From an infrared analysis it was possible to verify the presence of functional groups which are characteristic of the compound, and also the TGA in an atmosphere of oxygen and nitrogen allowed to observe the thermal behavior of the complex. These techniques combined, led to the determination of the molecular compound such as Ce (C12H10NSO3)3.5H2O. Considering this compound as a reaction product synthesis proposal we achieve an efficiency of 75% of a product sensitive to air. The TG in oxygen atmosphere at 1000 º C showed the formation of a thermally stable product, identified as cerium oxide (IV), CeO2. Therefore, this complex was subjected to heat treatment under various conditions. The oxides obtained at 800 ° C were characterized by X-ray diffraction, scanning electron microscopy and evaluated on heating under an atmosphere of CO and new heating under an atmosphere of compressed air. The results show that CeO2 is best done under an atmosphere of oxygen. The CeO2-O2 and CeO2-air sample studied presented crystallite sizes of 6 and 7 nm, respectively. Although the sample CeO2-air is not pure, the samples were stable when exposed to reducing atmospheres of CO and oxidizing air compressed under heating / O Óxido de cério é um material muito útil em uma série de processos dentre os quais destacamos os catalisadores automotivos, onde atua como regulador de oxigênio. Neste trabalho, estudamos a síntese do complexo difenil-4-amina sulfonato de cério (III) penta-hidratado, Ce(C12H10NSO3)3.5H2O, e sua aplicação como precursor para o óxido CeO2. O complexo foi sintetizado em meio aquoso, sob atmosfera de argônio e protegido da luz. O sólido obtido foi caracterizado por análise elementar de carbono, hidrogênio e nitrogênio e ainda por complexometria com EDTA, para determinação do conteúdo de Ce3+ no precursor. A partir da análise por infravermelho foi possível verificar a presença de grupos funcionais característicos do composto bem como, a análise termogravimétrica em atmosfera de oxigênio e argônio permitiu observar o comportamento térmico do complexo. Essas técnicas somadas, levaram a determinação da fórmula molecular do composto como Ce(C12H10NSO3)3.5H2O. Considerando este composto como produto da reação de síntese proposta obteve-se um rendimento de 75%, de um produto sensível ao ar. A análise termogravimétrica em atmosfera de oxigênio até 1000ºC, mostrou a formação de um produto termicamente estável e identificado como o óxido de cério (IV), o CeO2. Portanto, tal complexo foi submetido a tratamento térmico sob condições variadas. Os óxidos obtidos a 800ºC foram caracterizados por difratometria de raio X, microscopia eletrônica de varredura e avaliados no aquecimento sob atmosfera de CO e reaquecimento sob atmosfera de ar comprimido. Os resultados mostram que o CeO2 é obtido mais eficientemente sob atmosfera de oxigênio. As amostras estudadas CeO2-O2 e CeO2-ar, apresentaram tamanho médio de cristalito de 6 e 7nm, respectivamente. Embora a amostra CeO2-ar não esteja pura, essas amostras se mostraram estáveis quando submetidas a atmosferas redutora de CO e oxidante de ar comprimido, sob aquecimento
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Reactions in the System Nitro-cellulose/ Diphenylamine with Special Reference to the Formation of a Stabilizing Product Bonded to Nitro-celluloseLindblom, Torbjörn January 2004 (has links)
<p>The methods HPLC, microcalorimetry and FTIR together with chemometry, provide good analytical tools to follow the degradation of nitro-cellulose.</p><p>The degradation products formed from diphenylamine (DPA) during storage can be followed with HPLC. FTIR, together with chemometry, also gives the precision needed for safety control of propellants.</p><p>Nitro-cellulose (NC) containing DPA obtained a green colour already after 1 day storage at 70°C. About 10% of the stabilizer, and its derivatives, added were not extractable giving an extended time to autocatalysis. This time could be extended up to 70 days at 70°C for an extracted sample compared to about 3 days for non-stabilized NC. This was not shown before.</p><p>Aged and extracted NC samples contained a non-extractable nitro compound. The most likely compound is 2,4´-dinitroDPA, probably bonded to NC via the amine nitrogen. The bonding to NC occurs after the formation of NNODPA. This is something not described before.</p><p>Using another batch of nitro-cellulose to find out if a chemical bonding occurs gave inconclusive results as a blue NC was formed. Low molecular NC with high stability was obtained. A chemical bonding probably occurs when using NNODPA as a stabilizer, indicating NNODPA plays a key role.</p><p>The use of FTIR/chemometry is a promising method to use when studying small chemical changes. The described methodology should be used to find out more about the compound(s) being bonded to NC.</p>
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Reactions in the System Nitro-cellulose/ Diphenylamine with Special Reference to the Formation of a Stabilizing Product Bonded to Nitro-celluloseLindblom, Torbjörn January 2004 (has links)
The methods HPLC, microcalorimetry and FTIR together with chemometry, provide good analytical tools to follow the degradation of nitro-cellulose. The degradation products formed from diphenylamine (DPA) during storage can be followed with HPLC. FTIR, together with chemometry, also gives the precision needed for safety control of propellants. Nitro-cellulose (NC) containing DPA obtained a green colour already after 1 day storage at 70°C. About 10% of the stabilizer, and its derivatives, added were not extractable giving an extended time to autocatalysis. This time could be extended up to 70 days at 70°C for an extracted sample compared to about 3 days for non-stabilized NC. This was not shown before. Aged and extracted NC samples contained a non-extractable nitro compound. The most likely compound is 2,4´-dinitroDPA, probably bonded to NC via the amine nitrogen. The bonding to NC occurs after the formation of NNODPA. This is something not described before. Using another batch of nitro-cellulose to find out if a chemical bonding occurs gave inconclusive results as a blue NC was formed. Low molecular NC with high stability was obtained. A chemical bonding probably occurs when using NNODPA as a stabilizer, indicating NNODPA plays a key role. The use of FTIR/chemometry is a promising method to use when studying small chemical changes. The described methodology should be used to find out more about the compound(s) being bonded to NC.
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Method Development for the Analysis of Smokeless Powders and Organic Gunshot Residue by Ultra Performance Liquid Chromatography with Tandem Mass SpectrometryThomas, Jennifer L. 12 November 2013 (has links)
The goal of this project was to develop a rapid separation and detection method for analyzing organic compounds in smokeless powders and then test its applicability on gunshot residue (GSR) samples. In this project, a total of 20 common smokeless powder additives and their decomposition products were separated by ultra performance liquid chromatography (UPLC) and confirmed by tandem mass spectrometry (MS/MS) using multiple reaction monitoring mode (MRM). Some of the targeted compounds included diphenylamines, centralites, nitrotoluenes, nitroglycerin, and various phthalates. The compounds were ionized in the MS source using simultaneous positive and negative electrospray ionization (ESI) with negative atmospheric pressure chemical ionization (APCI) in order to detect all compounds in a single analysis. The developed UPLC/MS/MS method was applied to commercially available smokeless powders and gunshot residue samples recovered from the hands of shooters, spent cartridges, and smokeless powder retrieved from unfired cartridges. Distinct compositions were identified for smokeless powders from different manufacturers and from separate manufacturing lots. The procedure also produced specific chemical profiles when tested on gunshot residues from different manufacturers. Overall, this thesis represents the development of a rapid and reproducible procedure capable of simultaneously detecting the widest possible range of components present in organic gunshot residue.
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New Carbazole-, Indole-, and Diphenylamine-Based Emissive Compounds: Synthesis, Photophysical Properties, and Formation of NanoparticlesPanthi, Krishna K. 02 March 2011 (has links)
No description available.
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