Global ETD Search

31	Molecularly imprinted polymers for applications in cosmetology / Polymères à empreintes moléculaires pour applications en cosmétologie Li, Bin 11 June 2013 (has links) Un polymère à empreintes moléculaires (MIP) est un récepteur synthétique supramoléculaire, un matériau possédant des cavités pouvant reconnaître spécifiquement une molécule cible. Il est synthétisé en mettant en contact la molécule cible, avec un mélange de monomères fonctionnels et réticulants qui permettent d'obtenir un réseau polymérique tridimensionnel rigide. L'élimination de la molécule empreinte laissera des sites vides complémentaires de cette dernière. Ces cavités sont maintenant capables de la recapturer spécifiquement. Ces polymères sont utilisés dans les domaines tels que l’extraction en phase solide, la chromatographie d’affinité, la catalyse enzymatique, les biocapteurs et la vectorisation des médicaments. Bien que le concept des MIPs a pour origine les travaux réalisés sur des matériaux sol-gel imprimés dans les années 1930, ces derniers sont restés dans l’ombre jusqu’à l'introduction de polymères organiques imprimés plus versatiles. Par rapport aux MIPs organiques, les MIPs sol-gel présentent quelques avantages comme une plus grande stabilité thermique, une meilleure compatibilité avec l'eau et une plus grande porosité. Dans cette thèse, nous avons développé des MIPs organiques et des MIPs sol-gel pour leur application en cosmétologie et pour la vectorisation de médicaments. Dans la première partie, nous présentons des MIPs pouvant adsorber d’une façon spécifique l’acide oléique (OA), un biomarqueur de l’état pelliculaire sur le cuir chevelu. Pour la préparation des MIPs organiques, nous avons employé plusieurs monomères basiques dont l’acryloylaminobenzamidine (AB), que nous avons tout spécialement synthétisé. Tous les MIPs pouvaient lier l’OA mais beaucoup d’interaction non-spécifique était observé. D’autre part, les MIPs sol-gel présentaient une bonne reconnaissance spécifique et une capacité élevée pour OA; par exemple, un MIP de composition OA:APTES:TEOS = 1:1.6:1.7 pouvait adsorber 625 μmol.g-1 de OA dans le sébum artificiel. Des tests pour capturer l’OA sur le stratum corneum et la peau reconstruite (Episkin) ont également été effectués. La pénétration de l’OA sur les deux types de peau était plus faible en présence de MIP que de NIP. Les MIPs comme matériaux désodorisants font l’objet de la deuxième partie de cette thèse. Des MIPs pouvant adsorber les précurseurs de molécules malodorantes comme les conjugués glutamine des acides (E)-3-méthyl-2-hexénoïque (3M2H) et 3-hydroxy-3-méthyl-hexanoïque (3H3MH) ont été préparés. Le N-hexanoyl glutamine et le N-hexanoyl glutamate ont été utilisés comme template. Nous observons que le MIP synthétisé avec AB comme monomère fonctionnel possède la plus grande capacité d'adsorption pour le N-hexanoyl glutamine, ainsi que pour les précurseurs glutamines des molécules malodorantes. Des résultats préliminaires et très prometteurs ont également été obtenus dans la sueur. La dernière partie de cette thèse concerne des MIPs pour la vectorisation de médicaments. L'acide salicylique (SA) est un médicament efficace utilisé dans le traitement de l’acné. Des MIPs organiques et sol-gel contre SA ont été synthétisés. Les MIPs sol-gel ont une plus grande capacité d’adsorption, 180 μmol.g-1, que les MIPs organiques et ils lient le SA sept fois plus que le NIP. Les tests de relargage du SA ont été effectués dans plusieurs milieux, avec la plus grande efficacité dans l’eau pure. En conclusion, les applications de MIPs en cosmétologie et en vectorisation de médicaments ont étés étudiés. Nos résultats montrent que les MIPs sol-gel sont les plus appropriés pour ce type de travail. / Molecularly imprinted polymers (MIPs) are tailor-made synthetic receptors possessing specific cavities for a given target molecule. They are produced by introducing, into the polymer precursors, guest molecules that act as templates at the molecular level. Interacting and cross-linking monomers are then copolymerized to form a cast-like shell. After removal of the template, cavities complementary to the template in size, shape and position of functional groups are revealed in the polymer, which can now specifically bind the template. Thanks to these specific molecular recognition properties, MIPs have found applications in areas like bio sensors, solid phase extraction, affinity chromatography, catalysis, and drug delivery. Although the MIP concept originated from imprinted silica in the 1930s, imprinted sol-gel materials received little attention afterwards due to the introduction of the more versatile organic polymers as imprinting matrix. However, compared to organic polymers, sol-gels possess higher thermal stability, better water compatibility and larger inner surface area. There have been many applications to biomolecules in aqueous conditions with sol-gel imprinting materials. In this thesis, we have developed organic and silica sol-gel MIPs for applications in cosmetics and drug delivery. MIPs able to adsorb the dandruff-inducing molecule oleic acid (OA) were produced via both the organic and inorganic routes. In the organic MIPs synthesis, different positively charged monomers were used, one of which, acryloyl aminobenzamidine, was specifically synthesized. Although some binding of oleic acid was obtained, specificity and capacity of these polymers were not satisfying. Sol-gel MIPs, on the other hand, exhibited good specific recognition and high binding capacity for OA. A MIP of the composition OA:APTES:TEOS= 1:1.6:1.7 yielded a capacity of 625 μmol.g-1 in artificial sebum. Furthermore, tests were carried out to capture OA on stratum corneum and reconstructed skin (Episkin). Less penetration of OA was observed in the presence of a MIP than with a non-imprinted control polymer. Deodorant materials are another topic of this thesis. MIPs that are able to adsorb certain precursors of odorant molecules, the glutamine conjugates of (E)-3-methyl-2-hexenoic acid (3M2H) and 3-hydroxy-3-methyl-hexanoic acid (3H3MH) were prepared. N-hexanoyl glutamine and N-hexanoyl glutamate were used as templates. After optimization of the MIP composition, we found that MIPs synthesized with acryloyl aminobenzamidine as functional monomer had the highest adsorption capacity for N-hexanoyl glutamine, and also recognised the glutamine targets of 3M2H and 3H3MH. Some preliminary promising binding results were obtained in artificial sweat. The third part of this work concerns a drug delivery MIP. Salicylic acid (SA) is a drug used to treat acne. SA-imprinted polymers were prepared via both organic imprinting and the sol-gel process.Compared to organic MIPs, sol-gel MIPs have a higher capacity, 180 μmol.g-1, and 7 times higher binding than to a non-imprinted control polymer was observed. Release tests were carried out in different aqueous media, the most efficient drug release was observed in pure water. In conclusion, applications of molecularly imprinted polymers for cosmetics and drug delivery have been investigated. Our results demonstrate the great potential of in particular sol-gel MIPs for these purposes. Antipellicullaires Molecularly imprinted polymers Sol-gel imprinting matrices Cosmetology Drug Delivery Specific in water MIPs
32	Avaliação de métodos multirresíduos de preparo de amostra para determinação de antimicrobianos em alimentos: QueChERS e MEPS / Evaluation of multiresidue methods of sample preparation for determination of antimicrobials in food: QuEChERS and MEPS Mendonça, Raquel Lourenço 24 January 2013 (has links) As Sulfonamidas (SAs) são antibióticos de uso muito comum na medicina veterinária, sendo também aplicadas na medicina humana. Os resíduos dessas substâncias, ou dos seus metabolitos na carne e outros alimentos, podem causar efeitos adversos para a saúde dos consumidores como, por exemplo, resistências a antibióticos e alergias. Este trabalho apresenta o desenvolvimento e aplicação de métodos modernos de preparo de amostra para determinação de multiresíduo de sulfonamidas em alimentos por cromatografia líquida acoplada a espectrometria de massas e ultravioleta visível. Dentre os métodos de preparo de amostra, aplicou-se o método de extração QuEChERS (Quicky, Easy, Cheap. Effective, Rugged, Safe) modificado, em combinação com a cromatografia liquida acoplada a espectrometria de massas, para a análise de dez sulfonamidas em amostras de músculo de frango e bovino. No segundo estudo, seguindo a tendência de miniaturização, sintetizou-se um polímero molecularmente impresso (Sulfadimetoxina-MIP) para uso como sorbente em dispositivos de Microextração com Sorbentes Empacotado (MEPS). O método, denominado SDM-MIP-MEPS, foi otimizado e aplicado em amostras de músculo de frango usando a cromatografia liquida com detecção por ultravioleta-visivel. Embora o uso do polímero molecularmente impresso (MIP) como sorbente seletivo para o MEPS já tenha sido reportada em dois trabalhos, pela primeira vez é descrito a aplicação de um MIP impresso com sulfdimetoxina (SDM), usando MEPS para extração de sulfonamidas em músculo de frango. Portanto, a novidade neste caso, é o uso da nova técnica extração miniaturizada (MEPS) com o polímero sintetizado sulfadimetoxina-MIP como sorbente de empacotamento. As metodologias foram validadas com sucesso de acordo com as diretrizes 657/2002/EU. / Sulfonamides are widely used in veterinary and human medicine. Residues of these compounds, or their metabolites in animal meats and other foods, are toxic and can cause side effects in human\'s health, such as resistance to antibiotics and allergic reactions. This study describes the development and application of a modern sample preparation approach for sulfonamides multiresidue determination in food by chromatographic methods coupled to mass spectrometry and ultraviolet-visible spectroscopy. Among those sample preparation methods, the modified QuEChERS extraction in combination with liquid chromatography in tandem with mass spectrometric detection was applied to the analysis of residues of 10 sulfonamides in chiken and cattle muscle. In the second study, following the miniaturization trends, it was synthesized a molecularly imprinted polymer (Sulfadimethoxine-MIP), for application as sorbent in Microextraction by Packed Sorbents (MEPS). The extraction method was optimized and successfully applied to chicken muscle samples in combination with highperformance liquid chromatography by ultraviolet-visible detection. Although the use of MIPs as selective packing materials for MEPS has already been reported in two papers, is first time that application of a MIP imprinted with Sulfadimethoxine is evaluated for the extraction of sulfonamides in chicken muscle. Therefore the novelty of the present work is the use of this new miniaturization extraction technique with synthesized sulfadimethoxine-MIP polymer as packing sorbent. The methods were successfully validated according to the 2002/657/EC guidelines. MEPS MEPS molecularly imprinted polymers polímeros molecularmente impressos QuEChERS QuEChERs sulfonamidas sulfonamides
33	Nanostructured Gold-Modified Laser Scribed Graphene Biosensor Based on Molecularly Imprinted Polymers Aljedaibi, Abdulrahman 07 1900 (has links) Recently, laser scribed graphene (LSG) technology has shown great potential for the development of a plethora of sensing platforms due to its high sensitivity, 3D porous structure, and flexibility. Molecularly imprinted polymers (MIPs) have shown high potential as recognition elements for many applications such as biosensing. Hence, we report in this thesis a novel biosensing platform that utilizes nanostructured gold to enhance the performance of LSG sensors coupled with a biomimetic MIP biosensor. To the best of our knowledge, this is the first report of a nanostructured gold modified MIP based LSG biosensor to detect HER-2, which is an important breast cancer biomarker. HER-2 positive breast cancer is more aggressive and does not respond to the same treatment as standard breast cancer. As such, a simple and accurate sensing approach is highly needed for early detection of this type of cancer biomarkers. The LSG sensor platform was fabricated by irradiation of polyimide substrates using a CO2 laser under optimized conditions. Nanostructured gold was electrodeposited onto LSG to enhance its sensitivity and active surface area. Deposition parameters such as deposition voltage, deposition time, and gold chloride (HAuCl4) concentration were optimized to yield complete nanostructured gold coverage and enhanced electrical conductivity of LSG-Au electrodes. A deposition voltage of -0.9 V at 50 mM HAuCl4 for 4 minutes proved to be the optimal condition for gold deposition to yield a 150% peak current enhancement. To fabricate our MIP biosensor, 3,4- ethylenedioxythiophene (EDOT) was chosen from several functional monomers to form PEDOT due to its high conductivity and synergy with nanostructured gold. Electropolymerization of EDOT is performed after adsorbing 0.4mg/mL of HER-2 on the LSG-Au electrode for 20 min. The efficiency of LSG-Au-MIP was optimized by choosing an appropriate extraction agent and HER-2 concentration to be adsorbed on gold. The developed sensing strategy could differentiate between three rebinding concentrations of 10 ng/mL, 100ng/mL, and 200 ng/mL, which is sufficient to determine the HER-2 status of breast cancer since the clinical cut-off is 30.5ng/mL. The developed sensing strategy showed a high degree of novelty and could be useful for the non-invasive detection of cancer biomarkers. Laser Scribed Graphene Molecularly Imprinted Polymer Cancer Biomarkers Electrochemical Sensor Nanostructured Gold HER-2
34	Využití syntetických protilátek v imunohistochemii / Use of synthetic antibodies in immunohistochemistry Tomečková, Kristýna January 2021 (has links) This diploma thesis deals with the optimization of the preparation of molecularly imprinted (MIP) nanoparticles doped with metal ions, selective for the selected protein. In this work, the model protein – chymotrypsinogen A was chosen as a template. The free radical polymerization method was used for the preparation of molecularly imprinted nanoparticles. Dopamine was used as a functional monomer because it is able to bind metal ions to each other. It also undergoes very rapid oxidative polymerization under alkaline conditions without the need for the addition of polymer reaction initiators. MIP optimization was performed by capillary electrophoresis with UV-Vis detection. The MIP thus prepared can serve as recognition elements in immunohistochemical analyzes that use LA-ICP-MS as a detection method. Their applicability for immunohistochemistry was studied using the dot block method.
35	Τοwards a Synthetic Tryptophan Aminotransferase Tsimpos, Kleomenis January 2017 (has links) The synthesis and evaluation of a molecularly imprinted polymer has been undertaken using an oxazine-based tryptophanamide transition state analogue (TSA) as template. An efficient route to the synthesis of oxazine-based TSAs for the reaction of pyridoxamine and indole-3-pyruvic acid has been established, with yields of up to 80%. NMR titration studies were performed to examine the interactions between the functional monomer, methacrylic acid and the template. Complexation of the template by functional monomer in the presence of crosslinker showed an apparent KD of 0.63-0.79 ± 0.04 M (293 K, acetonitrile-d3) based upon the chemical shift of the template amide protons. TSA-imprinted and non-imprinted reference polymers were synthesized by free radical polymerization in acetonitrile. Polymer monoliths were ground and fractionated into a 25-63 μm size range. Polymer-ligand recognition studies were conducted using the polymers as HPLC stationary phases. An imprinting factor (IF) of 2.93 was observed for the TSA, indicating the selectivity of the imprinted sites for the template. Studies using the D- and L-enantiomers of the phenylalaninamide analogue of the template showed enantioselectivity in the case of the imprinted polymer, α = 1.10, though not in the case of the non-imprinted reference polymer (1.00). Using UV-spectroscopy based polymer-ligand binding studies, a maximum theoretical capacity (Bmax) of 0.059 ± 0.004 mmol·g-1 was observed for the imprinted polymer. Conclusively, an imprinted polymer with binding sites selective for the TSA was successfully prepared and shall subsequently be studied with respect to its capacity to catalyse the transamination reaction between pyridoxamine and indole-3-pyruvic acid to yield pyridoxal and tryptophan. Chemical Sciences Kemi
36	Occurrence and Transformation of Pharmaceutical and Antibacterial Compounds in the Environment Verma, Kusum Santosh 10 December 2010 (has links) The presence of pharmaceuticals and personal care products (PPCPs) in the environment has become a matter of concern during the last decade. Increased production of PPCPs along with their increased use has led to release of these compounds in the environment via various routes. PPCPs includes large group of compounds including veterinary and human antibiotics, analgesics and anti-inflammatory drugs, psychiatric drugs, β-blockers, X-ray contrasts, and steroid hormones, etc. Many of the compounds used in PPCPs have been shown to possess adverse effects to living organisms and act as endocrine disrupting agents (ECDs). This dissertation includes the investigation of the occurrence of antibiotic compounds added to personal care product and the transformation of hormones used in pharmaceuticals such as contraceptives. The results obtained in this study can provide information on the fate and transformation of the studied compounds once released in the environment. An analytical method employing sonication extraction and HPLC-ESI-MS detection was developed. The developed method was used to detect antibiotic compounds triclosan (TCS) and triclocarban (TCC) in biosolids-applied soil and biosolids. Both TCS and TCC were detected at high concentrations in biosolids and at lower concentrations in biosolids-applied soil. TCS and TCC concentrations decreased in biosolids composts and in biosolids-applied soil collected at deeper depths. The developed method was able to provide efficient detection limits and reliable quantification of target compounds. A molecularly imprinted polymer (MIP) was synthesized to achieve efficient clean-up of TCS and TCC from biosolids-applied soil and biosolids samples using 4,4’- DBP-4-vp-EGDMA. The motivation behind this project was to be able to eliminate the use of expensive instruments such as LC-MS and employ easily available instruments such as LC-UV. The synthesized MIP was able to achieve efficient clean-up and allowed quantification and identification of TCS and TCC in a complex matrix. Transformation of hormones such as 17β-estradiol, estriol, ethynlestradiol, estrone and testosterone was studied by employing Fe (III)-saturated montmorillonite catalysts. The use of Fe (III) – saturated montmorillonite as a catalyst proved be to very efficient in transformation of the studied hormones. Complete removal of hormones was observed in aqueous environment. LC-UV was used for detection and quantification of hormones. montmorillonite. Fe (III) – saturated montmorillonite oxidative transformation molecularly imprinted polymers triclocarban estrogens triclosan
37	Adsorption of Small Molecules in Advanced Material Systems Zhang, Fei 10 June 2019 (has links) Adsorption is a ubiquitous phenomenon that plays key roles in numerous applications including molecule separation, energy storage, catalysis, and lubrications. Since adsorption is sensitive to molecular details of adsorbate molecule and adsorbent materials, it is often difficult to describe theoretically. Molecular modeling capable of resolving physical processes at atomistic scales is an effective method for studying adsorption. In this dissertation, the adsorption of small molecules in three emerging materials systems: porous liquids, room-temperature ionic liquids, and atomically sharp electrodes immersed in aqueous electrolytes, are investigated to understand the physics of adsorption as well as to help design and optimize these materials systems. Thermodynamics and kinetics of gas storage in the recently synthesized porous liquids (crown-ether-substituted cage molecules dispersed in an organic solvent) were studied. Gas molecules were found to store differently in cage molecules with gas storage capacity per cage in the following order: CO2>CH4>N2. The cage molecules show selectivity of CO2 over CH4/N2 and demonstrate capability in gas separation. These studies suggest that porous liquids can be useful for CO2 capture from power plants and CH4 separation from shale gas. The effect of adsorbed water on the three-dimensional structure of ionic liquids [BMIM][Tf2N] near mica surfaces was investigated. It was shown that water, as a dielectric solvent and a molecular liquid, can alter layering and ordering of ions near mica surfaces. A three-way coupling between the self-organization of ions, the adsorption of interfacial water, and the electrification of the solid surfaces was suggested to govern the structure of ionic liquid near solid surfaces. The effects of electrode charge and surface curvature on adsorption of N2 molecules near electrodes immersed in water were studied. N2 molecules are enriched near neutral electrodes. Their enrichment is enhanced as the electrode becomes moderately charged but is reduced when the electrode becomes highly charged. Near highly charged electrodes, the amount of N2 molecules available for electrochemical reduction is an order of magnitude higher near spherical electrodes with radius ~1nm than near planar electrodes. The underlying molecular mechanisms are elucidated and their implications for development of electrodes for electrochemical reduction of N2 are discussed. / Doctor of Philosophy / Adsorption is a ubiquitous phenomenon that plays key roles in numerous applications including molecule separation, energy storage, catalysis, and lubrications. Since adsorption is sensitive to molecular details of adsorbate molecule and adsorbent materials, it is often difficult to describe theoretically. Molecular modeling capable of resolving physical processes at atomistic scales is an effective method for studying adsorption. In this dissertation, the adsorption of small molecules in three emerging materials systems: porous liquids, room-temperature ionic liquids, and atomically sharp electrodes immersed in aqueous electrolytes, are investigated to understand the physics of adsorption as well as to help design and optimize these materials systems. Thermodynamics and kinetics of gas storage in the recently synthesized porous liquids (crown-ether-substituted cage molecules dispersed in an organic solvent) were studied. Gas molecules were found to store differently in cage molecules with gas storage capacity per cage in the following order: CO2>CH4>N2. The cage molecules show selectivity of CO2 over CH4/N2 and demonstrate capability in gas separation. These studies suggest that porous liquids can be useful for CO2 capture from power plants and CH4 separation from shale gas. The effect of adsorbed water on the three-dimensional structure of ionic liquids [BMIM][Tf2N] near mica surfaces was investigated. It was shown that water, as a dielectric solvent and a molecular liquid, can alter layering and ordering of ions near mica surfaces. vi A three-way coupling between the self-organization of ions, the adsorption of interfacial water, and the electrification of the solid surfaces was suggested to govern the structure of ionic liquid near solid surfaces. The effects of electrode charge and surface curvature on adsorption of N2 molecules near electrodes immersed in water were studied. N2 molecules are enriched near neutral electrodes. Their enrichment is enhanced as the electrode becomes moderately charged but is reduced when the electrode becomes highly charged. Near highly charged electrodes, the amount of N2 molecules available for electrochemical reduction is an order of magnitude higher near spherical electrodes with radius ~1nm than near planar electrodes. The underlying molecular mechanisms are elucidated and their implications for development of electrodes for electrochemical reduction of N2 are discussed. adsorption ionic liquids porous liquids molecularly sharp electrodes molecular dynamics simulations
38	Nanocellulose: Preparation, Characterization, Supramolecular Modeling, and its Life Cycle Assessment Li, Qing Qing 13 December 2012 (has links) Nanocellulose is a nascent and promising material with many exceptional properties and a broad spectrum of potential applications; hence, it has drawn increasing research interests in the past decade. A new type of nanocellulose -- with mono- or bi-layer cellulose molecular sheet thickness -- was synthesized through a combined chemical-mechanical process (TEMPO-mediated oxidation followed by intensive sonication), and this new material was named molecularly thin nanocellulose (MT nanocellulose). The overarching objective of this study was to understand the formation and supramolecular structure of MT nanocellulose and contribute to the knowledge of native cellulose structure. The research involved four major bodies of study: preparation of MT nanocellulose, characterization of MT nanocellulose, modeling wood pulp-derived cellulose microfibril cross section structure, and a comparative life cycle assessment (LCA) of different nanocellulose fabrication approaches. The results revealed that MT nanocellulose with mono- to bi-layer sheet thickness (~0.4-0.8 nm), three to six chain width (~2-5 nm), and hundreds of nanometers to several microns length, can be prepared through TEMPO-mediated oxidation followed by 5-240 min intensive sonication. The thickness, width, and length of MT nanocellulose all decreased with extended sonication time and leveled off after 1 or 2 h sonication. Crystallinity, hydrogen bonding, and glycosidic torsion angles were evaluated by XRD, FTIR, Raman, and NMR. These experiments revealed systematic changes to structure with sonication treatments. A microfibril "cross section triangle scheme" was developed for the microfibril supramolecular modeling process and a 24-chain hexagonal/elliptical hybrid model was proposed as the most credible representation of the supramolecular arrangement for wood pulp-derived cellulose I" microfibril. Comparative LCA of the fabrication of nanocellulose indicated that nanocellulose presented a significant environmental burden markup on its precursor, kraft pulp, and the environmental hotspot was attributed to the mechanical disintegration process. Yet, overall nanocellulose still presented a prominent environmental advantage over other nanomaterials like single-walled carbon nanotubes, due to its relative low energy consumption. Overall, this research developed a facile approach to produce a new type of nanocellulose, the MT nanocellulose, provided new insights about the supramolecular structure of cellulose microfibrils, and evaluated the environmental aspects of the fabrication process of nanocellulose. / Ph. D. TEMPO-mediated oxidation cellulose molecularly thin MT nanocellulose microfibrils supramolecular structure Modeling life
39	Effect of polymerisation by microwave on the physical properties of molecularly imprinted polymers (MIPs) specific for caffeine Brahmbhatt, H.A., Surtees, Alexander P.H., Tierney, C., Ige, O.A., Piletska, E.V., Swift, Thomas, Turner, N.W. 14 October 2020 (has links) Yes / Molecularly Imprinted Polymers (MIPs) are a class of polymeric materials that exhibit highly specific recognition properties towards a chosen target. These “smart materials” offer robustness to work in extreme environmental conditions and cost effectiveness; and have shown themselves capable of the affinities/specificities observed of their biomolecular counterparts. Despite this, in many MIP systems heterogeneity generated in the polymerisation process is known to affect the performance. Microwave reactors have been extensively studied in organic chemistry because they can afford fast and well-controlled reactions, and have been used for polymerisation reactions; however, their use for creating MIPs is limited. Here we report a case study of a model MIP system imprinted for caffeine, using microwave initiation. Experimental parameters such as polymerisation time, temperature and applied microwave power have been investigated and compared with polymers prepared by oven and UV irradiation. MIPs have been characterised by BET, SEM, DSC, TGA, NMR, and HPLC for their physical properties and analyte recognition performance. The results suggest that the performance of these polymers correlates to their physical characteristics. These characteristics were significantly influenced by changes in the experimental polymerisation parameters, and the complexity of the component mixture. A series of trends were observed as each parameter was altered, suggesting that the performance of a generated polymer could be possible to predict. As expected, component selection is shown to be a major factor in the success of an imprint using this method, but this also has a significant effect on the quality of resultant polymers suggesting that only certain types of MIPs can be made using microwave irradiation. This work also indicates that the controlled polymerisation conditions offered by microwave reactors could open a promising future in the development of MIPs with more predictable analyte recognition performance, assuming material selection lends itself to this type of initiation. / DMU School of Pharmacy undergraduate project scheme for financial support. Molecularly Imprinted Polymers (MIPs) “Smart materials” Polymerisation process Microwave reactors Caffeine
40	Degradação de profenofós em solução aquosa e em ervilhas processadas por feixe de elétrons e a síntese de polímeros impressos para extração seletiva desse pesticida / Degradation of profenofos in aqueous solution and peas by electron beam processed and synthesis of imprinted polymers for selective extraction of this pesticide Flavio Thihara Rodrigues 10 April 2015 (has links) Profenofós é um organofosforado empregado como inseticida e acaricida amplamente utilizado no Brasil para o controle de pragas de cebolas, milho, soja, café, tomate, algodão, feijão, batata e outros. A irradiação é um processo empregado em todo o mundo e recomendada por diversos órgãos de saúde para a conservação de alimentos. A radiação ionizante utiliza raios gama, raios X ou aceleradores de elétrons e tem sido aplicada para eliminar ou reduzir a ação de agentes patogênicos e contribuir para aumentar o tempo de estocagem de vários alimentos. Os objetivos desse trabalho foram: (a) avaliar a degradação de soluções aquosas de profenofós submetidas à radiação ionizante, identificar e quantificar a formação de novos produtos por GC-MS; (b) analisar o efeito de feixe de elétrons em ervilhas inoculadas com soluções aquosas de profenofós; (c) sintetizar Polímeros Molecularmente Impressos (MIP) e Sílica Impressa Molecularmente (MIS), posteriormente, caracterizar os adsorventes em fase sólida e verificar sua seletividade para profenofós. O tratamento com aceleradores de elétrons com dose 31,6 kGy promoveu a formação de um novo produto de degradação e redução de 93,40 % de profenofós em soluções aquosas. Em ervilhas inoculadas com 1 μg de profenofós submetidas à radiação ionizante de 30,4 kGy promoveu uma redução na concentração de profenofós em 57,46 %. Além disso, foram realizadas sínteses de MIP e MIS para a extração em fase sólida de profenofós. Os MIS sintetizados por sol-gel mostraram-se eficazes para o reconhecimento molecular e extração seletiva de profenofós. / Profenofos is an organophosphate widely used in Brazil as insecticide and acaricide in the control of pests in onions, corn, soybeans, coffee, tomato, cotton, beans, potatoes among others. Irradiation is a process used worldwide and recommended by many health agencies for food preservation. Food irradiation preserving process uses accelerated electrons, gamma rays or X-rays. Ionizing radiation treatment is applied to eliminate or to reduce the action of pathogens and to increase the shelf life of some foods. The objective of this study were (a) to evaluate the degradation of aqueous solutions of Profenofos by ionizing radiation, identify and quantify the formation of new products by GC-MS; (b) to analyze the effects of electron beam in peas inoculated with aqueous solutions of Profenofos; (c) to synthesize Molecularly Imprinted Polymer (MIP) and Molecularly Imprinted Silica (MIS), subsequently characterize the adsorbents in solid phase and check its selectivity for profenofos. The treatment with electron accelerators with 31.6 kGy dose promoted the formation of a new by-product and 93.40 % reduction of profenofos in aqueous solutions. In peas inoculated with 1 μg of profenofos by ionizing radiation of 30.4 kGy promoted a reduction of 57.46 % in the concentration of profenofos. Furthermore, the MIP and MIS were performed for solid phase extraction of profenofos. The MIS synthesized by sol-gel proved to be effective for the recognition molecular and selective extraction of profenofos. ervilhas extração em fase sólida extração líquido-líquido irradiação de alimentos polímero de impressão molecular profenofós QuEChERS sílica impressa molecularmente food irradiation liquid-liquid extraction molecularly imprinted polymer molecularly imprinted silica peas profenofos Quechers solid phase extraction

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