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Verdazyl Radicals as Mediators in Living Radical Polymerizations and as Novel Substrates for Heterocyclic SynthesesChen, Eric Kuan-Yu 05 August 2010 (has links)
Verdazyl radicals are a family of multicoloured stable free radicals. Aside from the defining backbone of four nitrogen atoms, these radicals contain multiple highly modifiable sites that grant them a high degree of derivatization. Despite having been discovered more than half a century ago, limited applications have been found for the verdazyl radicals and little is known about their chemistry. This thesis begins with an investigation to determine whether verdazyl radicals have a future as mediating agents in living radical polymerizations and progresses to their application as substrates for organic synthesis, an application that to date has not been pursued either with verdazyl or nitroxide stable radicals.
The first part of this thesis describes the successful use of the 1,5-dimethyl-3-phenyl-6-oxoverdazyl radical as a mediating agent for styrene and n-butyl acrylate stable free radical polymerizations. The study of other verdazyl derivatives demonstrated the impact of steric and electronic properties of the verdazyl radicals on their ability to mediate polymerizations.
The second part of this thesis outlines the initial discovery and the mechanistic elucidation of the transformation of the 1,5-dimethyl-3-phenyl-6-oxoverdazyl radical into an azomethine imine, which in the presence of dipolarophiles, undergoes a [3+2] 1,3-dipolar cycloaddition reaction to yield unique pyrazolotetrazinone structures. The reactivity of the azomethine imine and the scope of the reaction were also examined.
The third part of this thesis describes the discovery and mechanistic determination of a base-induced rearrangement reaction that transforms the verdazyl-derived pyrazolotetrazinone cycloadducts into corresponding pyrazolotriazinones or triazole structures. The nucleophilicity, or the lack thereof, of the base employed leading to various rearrangement products was examined in detail.
The final part of this thesis demonstrates the compatibility of the verdazyl-initiated cycloaddition and rearrangement reactions with the philosophy of diversity-oriented synthesis in generating libraries of heterocycles. A library of verdazyl-derived heterocycles was generated in a short amount of time and was tested non-specifically for biological activity against acute myeloid leukemia and multiple myeloma cell lines. One particular compound showed cell-killing activity at the 250 mM range, indicating future potential for this chemistry in the field of drug discovery.
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Synthetic and kinetic investigations into living free-radical polymerisation used in the preparation of polymer therapeuticsAdash, Uma January 2006 (has links)
The aim of this work was to successfully prepare polymers of N-(2-hydroxypropyl)methacrylamide, (PHPMA) using controlled/"living" free-radical polymerisation technique. For this purpose, atom transfer radical polymerisation (ATRP) and reversible addition-fragmentation (chain) transfer (RAFT) polymerisation were used in preparation of a number of base polymers with the intention of quantitatively converting them into PHPMA. Both methods were applied under varying polymerisation conditions, and the kinetics of the systems investigated. Various rate constants were measured, while computer modelling of the experimental data allowed estimation of other kinetic parameters of interest. Investigations into solvent and ligand effects on the kinetics of ATRP of the activated ester methacryloyloxy succinimide (MAOS) and one of the archetypal methacrylate monomers, methyl methacrylate (MMA) were carried out. The method of RAFT was also employed in polymerisation of MAOS and a number of other monomers in the hope of finding the best synthetic precursor of PHPMA. Polymers of methacryloyl chloride (MAC) and p-nitrophenyl methacrylate (NPMA) were prepared, as well as the polymers of HPMA itself and N-isopropyl methacrylamide. Polymerisation of MMA by RAFT was also attempted in view of adding to current knowledge on the monomer's behaviour and the kinetic characteristics of its RAFT polymerisation. Preparation of PHPMA from PMAOS, PMAC and PNPMA was attempted. Successful preparation of PHPMA from the polymer of the acid chloride was achieved under mild reaction conditions, while displacement of N-hydroxysuccinimide groups of PMAOS resulted in unexpected modification of the polymer under the conditions used. Conversion of PNPMA into PHPMA was not achieved. At this stage these results suggest inadequacy of both PMAOS and PNPMA as reactive polymeric precursors.
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Measurements of Human Plasma OxidationOsborn, Anna January 2006 (has links)
The oxidation of lipids and antioxidants has been extensively studied in human plasma but little attention has been given to how plasma proteins are oxidised. Proteins make up the majority of biomolecules in cells and plasma and therefore are the most likely reactants with oxidants and free radicals. Previous studies in the laboratory had shown that peroxyl radicals generated by the thermolytic decay of 2-azobis (2-amdinopropane) dihydrochloride (AAPH) generated significant amounts of protein hydroperoxides, but only after a six hour lag period. In this study the existence of the six hour lag period was confirmed and shown by dialysis of the plasma to be due to the presence of low molecular weight antioxidants. The addition of both uric acid and ascorbic acid to the dialysed plasma restored the lag phase suggesting that in vivo these antioxidants act to prevent protein hydroperoxide formation. Lipid oxidation was also observed in the plasma but only after a two hour lag phase. This was the first time lipid oxidation has been observed in the absence of protein oxidation. The lipid lag phase was also abolished by dialysis of the plasma and restored by the addition of ascorbic acid and uric acid. The kinetics of tocopherol loss suggests that the tocopherol radicals act to inhibit lipid oxidation by transferring the electrons to the water-soluble ascorbate. The loss of ascorbate appears to cause the formation of a tocopherol radical mediate the lipid peroxidation process. Overall the data shows ascorbic acid scavenging the peroxyl radicals while uric acid acts to reduce the overall AAPH generated radical flux. In a separate investigation, the production of protein-bound DOPA (PB-DOPA) on albumin during X-ray radiolysis and copper mediate Fenton oxidation was investigated using a fluorescence based derivatisation method (ED-DOPA), which was compared with the more specific acid hydrolysis and HPLC analysis method. The ED-DOPA method consistently gave a much higher reading that the HPLC based methods, suggesting that the ED-DOPA method was measuring DOPA plus DOPA oxidation products. This was confirmed by oxidising X-ray radiolysis generated PB-DOPA with Cu++ to cause DOPA oxidation. The Cu++ treatment drastically increased the level of signal given by the ED-DOPA assay while HPLC analysis showed all the DOPA had been oxidised.
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The alpha-hydroxyalkyl diazenes and the alpha-hydroperoxyalkyl diazenes as sources of radicals for the kinetic studies of some radical-molecule reactions in solution.Mathew, Lukose K. Warkentink, John. Unknown Date (has links)
Thesis (Ph.D.)--McMaster University (Canada), 1991. / Source: Dissertation Abstracts International, Volume: 53-01, Section: B, page: 0308. Supervisor: John Warkentin.
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Proliferação celular induzida por 8-oxoguanosina e 8-metilguanosina, dois produtos do ataque de radicais livres a ribonucleosídeos e RNA / Cell proliferation induced by 8-oxoguanosine and 8-methylguanosine, two products of free radical attack to ribonucleosides and RNAJolie Kiemlian Kwee 07 April 1998 (has links)
Os efeitos de ribonucleosídeos de guanina substituídos na posição C-8 na proliferação de linfócitos B estão bem documentados na literatura. Esses compostos são análogos de adutos formados pela adição de radicais livres a ribonucleosídeos e a RNA. Neste trabalho, verificamos as propriedades proliferativas de dois desses adutos, 8-metilguanosina (8-MeGuo) e 8-oxo-7 ,8-di-hidroguanosina (8-OxoGuo) e comparamos com 8-bromoguanosina (8-BrGuo), o composto mais estudado como indutor da proliferação de linfócitos B. 8-MeGuo e 8-OxoGuo foram sintetisados em rendimentos de 28 e 55%, respectivamente, e foram caracterizados por UV, NMR e CG-massa. Seus efeitos sobre a incorporação de timidina radioativa ([3H] TdR) no DNA de células de baço, fibroblasto 3T3(A31) e melanoma B16F10 foram examinados. Os dois adutos foram mitogênicos para células de baço mas foram seletivos quanto as células imortalizadas. 8-MeGuo atuou sobre células 3T3(A31) e 8-OxoGuo sobre as células de melanoma B16F10. O análogo não fisiológico 8-BrGuo foi efetivo em todas as células testadas. Experimentos de contagem de células, citotoxicidade e citometria de fluxo, indicaram que a síntese de DNA induzida pelas guanosinas substituídas na posição C-8 refletia crescimento celular. Foi proposto que os compostos agem de dentro da célula uma vez que seus efeitos são bloqueados em presença de um inibidor de transporte de nucleosídeo, mas não foram inibidos por um antagonista de receptor purinérgico. Os resultados obtidos, junto com os descritos na literatura, sugerem que no caso dos fibroblastos 3T3(A31) e células de baço de camundongo os efeitos proliferativos dos compostos não são dependentes do metabolismo desses compostos via salvação das purinas. No caso das células de melanoma, entretanto, os compostos parecem fazer parte do \"pool\" de nucleosídeos. A demonstração de que adutos produzidos por ataques radicalares em ribonucleosídeos e RNA são capazes de induzir proliferação celular, abre novas perspectivas para a compreensão do papel de radicais livres em processos carcinogênicos. / The ability of CS-substituted guanine ribonucleosides to induce B cell proliferation has been well documented in the literature. These compounds are analogues of adducts formed from free radical attack on ribonucleosides and RNA. Here we examined the proliferative properties of two of these radical adducts, 8-methylguanosine (8-MeGuo) and 8-oxo-7 ,8-dihydroguanosine (8-OxoGuo) and compared them with those of the well studied B cell mitogen, 8-bromoguanosine (8-BrGuo). 8-MeGuo and 8-OxoGuo were synthesized in yields of 28 and 55 %, respectively, and were characterized by UV, NMR and CG-MS. Their effects upon [3H] thymidine uptake by Swiss mice splenocytes, mouse embryo 3T3 (A31) fibroblasts and mouse B16F10 melanocytes were examined. Both guanosine radical adducts were shown to increase [3H] thymidine uptake by mice splenocytes but displayed selectivity in regard to continuous cell lines. 8-MeGuo acted upon 3T3(A31) fibroblasts whereas 8-OxoGuo acted upon B16F10 melanocytes. The non physiological analogue 8-BrGuo acted upon all tested cells. Parallel experiments of cell counting, cytotoxicity, and cell sorting indicated that DNA synthesis induced by the C8-substituted guanosines reflected cell growth. It is proposed that the compounds act intracellularly because their proliferative effects were blocked in the presence of a nucleoside transport inhibitor but were not inhibited by an antagonist of the A2 purine receptor. The obtained results, taken together with data from the literature suggest that in the case of 3T3 (A31) fibroblasts and mice splenocytes the proliferative effects of the compounds are not dependent on metabolism through purine salvage pathways. In the case of melanocytes, however, the compounds are likely to become part of the purine nucleoside pool. The demonstration that adducts produced by free radical attack on ribonucleosides and RNA are able to induce cell proliferation opens new perspectives for the understanding of free radical mediated carcinogenesis.
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Síntese e caracterização de padrão de poliestireno para cromatografia de permeação em gel através da polimerização via radical livre controlada mediada por radicais nitróxidos / Synthesis and characterization of polystyrene standard for gel permeation chromatography using nitroxide mediated radical polymerization (NMRP)Malere, Caroline Paganucci dos Reis 08 August 2011 (has links)
Orientador: Liliane Maria Ferrareso Lona / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Química / Made available in DSpace on 2018-08-19T01:46:35Z (GMT). No. of bitstreams: 1
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Previous issue date: 2011 / Resumo: A Cromatografia de Permeação em Gel ou "Gel Permeation Chromatography (GPC), também conhecida como Cromatografia de Exclusão por Tamanho ou "Size Exclusion Chromatography" (SEC) é uma das técnicas analíticas mais utilizadas para separação e caracterização de polímeros naturais e sintéticos, copolímeros e proteínas, fornecendo informações distribuição de massa molar (MWD), viscosidade intrínseca (IV) e polidispersividade (PDI). A importância de sua resposta na análise de determinado polímero se reflete em termos de sua processabilidade, uma vez que as propriedades mecânicas e químicas são drasticamente afetadas por sua massa molar média, tamanho da cadeia e distribuição. Na técnica de GPC os padrões utilizados são de primordial importância para obtenção de resultados confiáveis, pois são utilizados nas construções de curvas de calibrações necessárias para aquisição dos resultados quanti e qualitativos na técnica. Apesar da vasta utilização da técnica de GPC no Brasil, tanto em centros de pesquisa como em indústrias químicas e petroquímicas, os padrões disponíveis para comercialização são todos adquiridos no exterior, por meio de importação a altos custos. Visto a necessidade de mudança desse paradigma, este trabalho tem como objetivo desenvolver um produto nacional utilizando a polimerização via radical livre mediada por radicais nitróxidos (NMRP), também chamada "living free radical polymerization (LFRP)". O padrão escolhido para o estudo foi o poliestireno (PS), por ser ele um dos padrões mais utilizados na calibração de análise de GPC orgânico. Um dos desafios enfrentados neste trabalho foi a obtenção de polímeros com índices de polidispersividade (PDI) variando de 1 a 1,10, distribuição de massa molar (MWD) estreita e alto grau de pureza, utilizando pela primeira vez uma mistura de iniciadores no processo NMRP. A NMRP é uma técnica robusta e inovadora comparada com a polimerização iônica que é atualmente o processo empregado para obtenção de polímeros com valores de PDI muito baixos. O processo NMRP possui vantagens frente à polimerização iônica para produção de polímeros com estrutura controlada, pois nele não são necessários etapas de purificações complexas, sendo que as reações requerem menos condições estritas em relação a impurezas e temperaturas de trabalho. Este é um processo simples e barato, na qual as reações podem ser realizadas em ampolas de vidros / Abstract: Gel Permeation Chromatography, also known as Size Exclusion Chromatography, is the most employed technique to characterize macromolecules such as proteins, copolymers, natural and synthetic polymers. It provides information such as molecular weight distribution (MWD), intrinsic viscosity (IV) and polydispersity (PDI). The importance of its response reflects in terms of polymer processability once the mechanic and chemicals properties are drastically affected by the polymer average molecular weight, chain size and distribution. The standards in the GPC technique have a great importance to obtain reliable results because they are employed in calibration curves needed to acquire the quantitative and qualitative data. Despite the wide use of GPC in Brazil at research centers, chemical and petrochemical industries, all the standards available are obtained outside the country through high importation costs. To change this paradigm, this work aims to develop a national product using the pseudo-living radical polymerization or living free radical polymerization (LFRP), which is a robust and innovative technique in the polymerization science area. The standard chosen was the polystyrene, which is the most used polymer in calibration curves of organic GPC analysis. Our challenge in this work was to obtain a controlled structure polymer with polydispersity index (PDI) between 1 and 1.10, narrow molecular weight distribution (MWD) and high purity degree, using to the best of our knowledge for the first time a mixture of initiators in a NMRP process. The NMRP is a robust and innovative technique compared with the ionic polymerization that is the currently employed process to obtain polymers with very low PDI. The advantages of NMRP process over ionic polymerization to produce controlled structure polymers are that no complicated purification steps are needed, controlled radical reactions require less stringent conditions for impurities and working temperatures, it is a simple and cheaper process, where the reactions can be carried out into glass ampoules / Mestrado / Desenvolvimento de Processos Químicos / Mestre em Engenharia Química
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The role of free radical stress in the etiology of Pendred syndrome in a mouse modelSingh, Ruchira January 1900 (has links)
Doctor of Philosophy / Department of Anatomy and Physiology / A. Philine Wangemann / Pendred syndrome is characterized by sensorineural deafness and post-pubertal goiter. It is caused by mutations in the anion exchanger, pendrin (SLC26A4). The purpose of this study was to understand the etiology of Pendred syndrome using a mouse model. Different methods of amplification from nanogram amounts of starting RNA were evaluated for gene array application. Gene arrays were performed and free radical stress markers were compared between the stria vascularis and the thyroid of the Slc26a4+/- and Slc26a4-/- mice. Hearing loss in Slc26a4-/- mice is linked to the loss of Kcnj10 protein expression and consequently the loss of endocochlear potential. To understand the mechanism of hearing loss in Slc26a4-/- mice, progressive loss of Kcnj10 protein expression in stria vascularis of Slc26a4-/- mice was assessed, the modulation of Kcnj10 protein expression by free radical stress in cultured stria vascularis and in an heterologous expression system was evaluated. To characterize the thyroid pathology, pendrin expression in the thyroid of Slc26a4+/- mice was measured in a developmental study and correlated with serum thyroxine (T4) levels of Slc26a4+/- and Slc26a4-/- mice over a developmental time course. All tested methods of RNA amplification were suitable for gene array application and demonstrated high internal consistency. Intermethod comparisons revealed variations in data, suggesting that a single amplification method ought to be used within a given experiment. Markers of free radical stress were increased in the stria vascularis of Slc26a4-/- mice before the onset of hearing. Progressive loss of Kcnj10 expression was seen in Slc26a4-/- mice at the onset of hearing. Furthermore, free radical stress modulated the expression of Kcnj10 in cultured stria vascularis and in a heterologous expression system. The pendrin mRNA expression was marginal in the thyroid and did not correlate with serum T4 levels. Further, absence of pendrin did not affect free radical stress markers in the thyroid. These data suggest that free radical stress-mediated loss of Kcnj10 expression in stria vascularis contributes to deafness in the Pendred syndrome mouse model and that pendrin is not essential for the function of mouse thyroid gland.
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Free radical emulsion polymerization of ethylene / Polymérisation radicalaire de l’éthylène en émulsionBilluart, Guilhem 23 March 2015 (has links)
Les travaux présentés dans cette thèse portent sur la polymérisation radicalaire de l'éthylène en émulsion, dans des conditions douces (P < 250 bar et T < 90 °C). Tout d'abord, l'homopolymérisation de l'éthylène a été étudiée. Des latex stables de polyéthylène présentant des taux de solide relativement élevés (30 %) ont été obtenus. Pour cela, deux systèmes différents d'amorçage et de stabilisation (cationique et anionique) ont été employés. Ces latex peuvent trouver des applications comme revêtements hydrophobes (par exemple du papier). L'étude des propriétés thermiques des latex a mis en évidence des phénomènes de cristallisation du polyéthylène à basse température, dû à son confinement dans les nanoparticules. Cela a une forte influence sur les morphologies finales des particules. D'autre part, la copolymérisation radicalaire de l'éthylène en émulsion a été étudiée. Les comonomères utilisés sont le styrène, l'acrylate de butyle, le méthacrylate de méthyle et l'acétate de vinyle qui différent par leur solubilité dans l'eau et leurs rapports de réactivité de copolymérisation avec l'éthylène. La composition des copolymères obtenus influence leurs propriétés thermiques (Tg, Tf). Des latex stables de copolymères de compositions variées ont pu ainsi être synthétisés. Ce travail en homo- et copolymérisation a souligné la complexité des milieux de polymérisation en émulsion impliquant un monomère gazeux supercritique comme l'éthylène / In this work, the free radical emulsion polymerization of ethylene under mild conditions (P < 250 bar and T < 90 °C) was investigated. Ethylene homopolymerization was first studied. Stable polyethylene latexes of significantly high solids content (30 %) were produced. This was achieved by the use of two different initiating and stabilizing systems (cationic and anionic). These latexes could be applied as hydrophobic coatings (e.g. on paper). Investigation of the thermal properties of the latexes evidenced crystallization phenomena at low temperatures, owing to PE confinement in the nanoparticles, which strongly impacted their final morphologies. Free radical emulsion copolymerization of ethylene was then studied. The investigated comonomers were styrene, butyl acrylate, methyl methacrylate and vinyl acetate. They differ in their reactivity ratios to ethylene and their water solubility. The composition of the obtained copolymers had a strong influence on their thermal properties (Tg, Tm). Stable latexes containing copolymers of various compositions were thus synthesized. This work on homo- and copolymerization evidenced the complexity of the polymerization media involving a gaseous supercritical monomer such as ethylene
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Modelagem matematica da polimerização via radical livre controlada usando mecanismo RAFT (transferencia de cadeia reversivel por adição-fragmentação) / Mathematical modeling of living free radical polymerization using mechanism (reversible addition-fragmentation chain transfer)Franco, Ivan Carlos, 1976- 15 February 2007 (has links)
Orientador: Liliane Maria Ferrareso Lona / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica / Made available in DSpace on 2018-08-07T23:37:08Z (GMT). No. of bitstreams: 1
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Previous issue date: 2007 / Resumo: Polimerização via radical livre controlada (CRP) tem recebido cada vez mais atenção como uma técnica para produção de polímeros com micro estrutura altamente controlada. Em particular, distribuições de pesos moleculares estreitas são obtidas, com polidispersidade muito próxima de um, sendo um campo promissor na ciência de polimerização com estruturas controladas. Um importante requisito para engenharia de polimerização e desenvolvimento de polímeros é a construção de modelos matemáticos úteis, especialmente aqueles de natureza mecanística, com validação experimental. O objetivo deste trabalho é o desenvolvimento de modelos matemáticos abrangentes para simulação de polimerização para mecanismo RAFT. Metacrilato de metila em benzeno a 60°C na presença de 2,2-cianopropil 1- pirrolecarboditioato (agente RAFT) e com AIBN como iniciador em um reator batelada será considerado como estudo. Os pesos moleculares foram calculados
utilizando o método dos momentos. Uma análise paramétrica considerando o efeito da concentração de iniciador e da concentração de agente RAFT foi realizada. O modelo predito está de acordo com os dados experimentais da literatura, o que atesta sua validade para ser utilizado
no controle de estruturas poliméricas obtidas no processo RAFT / Abstract: Lately, Living Free Radical Polymerization (LFRP) has been detached as a technique for the production of polymers with highly controlled microstructure. In particular, narrow distributions of molecular weights are obtained, with polydispersity values next to one. So, this technique is a promising field in the science of polymerization with controlled structures. An important requirement for engineering of polymerization and polymer development is the construction of useful mathematical models, especially those of mechanistic nature, with
experimental validation. The objective of this work was to develop comprehensive mathematical models to simulate polymerization from RAFT mechanism. Methyl Methacrylate in benzene at 60°C in the presence of 2-cyanoprop-2-yl 1-pyrrolecarbodithioate (agent RAFT)
and with AIBN as the initiator in a batch reactor was considered. The molecular weights have been calculated using the method of moments.
A parametric analysis considering the effect of the initiator and agent RAFT concentrations was performed. Models prediction showed good agreements with experimental data from literature, what certifies its validity in being used in the control of polymeric structures in RAFT process / Mestrado / Desenvolvimento de Processos Químicos / Mestre em Engenharia Química
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Advances In light-induced polymerizations: I. Shadow cure in free radical photopolymerizations, II. Experimental and modeling studies of photoinitiator systems for effective polymerizations with LEDsKitano, Hajime 01 July 2012 (has links)
Photopolymerization has become the standard for many coating and printing applications that require rapid curing at room temperature due to its potential to reduce volatile organic compound (VOC) emissions while providing a means for efficient manufacturing processes. These advantages could be useful in a variety of emerging applications, such as anisotropic conductive films (ACF) if photopolymerization could extend into relatively narrow shadow regions which are not directly illuminated, and if visible wavelengths that are not absorbed by polyimide films could be used to trigger the reaction.
The broad objectives of this research are i) to examine the factors that determine the attainable extent of shadow cure in free radical polymerizations, and ii) to develop initiator systems effective for polymerization using visible light and light emitting diode (LED) lamps.
Project I: Shadow Cure in Free Radical Photopolymerizations
In this project, the extent of shadow cure in visible-light-induced free radical photopolymerization is investigated. A number of effective methods such as adding additives, utilizing a reflective stage, and increasing the light intensity are introduced. In addition, the use of fluorescent dyes in multi-component photoinitiator systems proved to be very effective for shadow cure because the fluorescent light emitted from the dye could irradiate the shadow region.
When considering practical resins, mixtures of oligomers and monomers, the viscosity is the major barrier that must be overcome in order to achieve high conversion in the shadow regions using visible-light-induced multi-component photoinitiator systems. Hence, instead of using multi-component systems, a commercial visible-light-induced single-component photoinitiator is investigated. As a result, a high conversion in shadow regions of the viscous oligomer containing resin is achieved.
Project II: Experimental and Modeling Studies of Photoinitiator Systems for Effective Polymerizations with LEDs
In this project, various LED photocuring systems are investigated and characterized. The light intensities of LEDs become weaker as their peak emission wavelengths decrease. Therefore, to design the practical process of LED curing, the effect of both the light intensity and the emission spectrum of the lamp must be considered. Photopolymerization for four representative UV photoinitiators with different LEDs are investigated experimentally and theoretically. The effective light source is dependent on the photoinitiators and several LEDs demonstrate high thin cure ability. The calculated results from a model display good qualitative correspondence with the experimental results. Various interesting suggestions are obtained using this model. For example, the commercialization of 355 nm LEDs might be able to superior photopolymerization compared to other currently available LED lamps.
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