Dissertations / Theses on the topic 'Bionanocompositi'
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Iozzino, Valentina. "PLA-based bionanocomposites with modulated degradation rate: preparation and processing by microinjection molding." Doctoral thesis, Universita degli studi di Salerno, 2019. http://elea.unisa.it:8080/xmlui/handle/10556/4646.
Full text... The aim of this work has been to obtain bionanocomposites with a degradation rate which can be modulated in time, so that it can be possible to decide a priori the time after which the material will disappear in a given environment. At the same time, the material should preserve its properties during processing. Several mixtures of PLA (4032D, 4060D) and LDH of cation composition Mg2Al organo-modified with organic acids (succinc, fumaric and ascorbic acid) have been obtained by extrusion. From the extruded materials there were obtained films by compression molding; these films were then subjected to hydrolysis tests. The experimental results show that for samples loaded with LDH-organic acid (in particular LDH-succinic acid), there is an increase in the time needed for degradation, and a decrease in this time for samples loaded with organic acid alone. From the selected material (PLA + LDH-succinic acid) and from pure PLA, biphasic samples (half amorphous and the other half crystalline) have been obtained by micro-injection molding. Also in this case, the experimental results show an increase for the loaded samples in the time needed for degradation compared to pure PLA both for the crystal phase and for the amorphous one, and in particular the presence of a degradation profile within the same sample is observed. [edited by Author]
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He, Jing. "Des (bio)nano-composites utilisés dans le traitement d'eaux contaminées par de l'arsenic/gentamicine ou pour des applications médicales." Phd thesis, Université de Grenoble, 2013. http://tel.archives-ouvertes.fr/tel-00988092.
Full textBelda, Marín Cristina. "Silk bionanocomposites : design, characterization and potential applications." Thesis, Compiègne, 2020. http://www.theses.fr/2020COMP2570.
Full textSilk-based bionancompoistes have attracted a growing interest in numerous applications, particularly in the biomedical field, owing to their ability to combine the specific properties of silk fibroin (biodegradability, biocompatibility and interesting mechanical properties) and nanoparticles (NPs). This work aims to (i) develop a straightforward, yet efficient, methodology to design various silk bionanocomposite materials; (ii) provide an in-depth characterization regarding the silk/NPs interface and (iii) provide potential applications which are relevant for the use of these bionanocompoistes. To this end, gold (Au NPs), silver (Ag NPs) and iron oxide (IONPs) NPs are used as model nanomaterials due to their well-known properties. The successful design of silk bionancocomposite electrospun mats, hydrogels, cryogels, sponges and 3D printed structures is described. An in-depth characterization, including in situ (during hydrogel formation) and ex situ (once hydrogel is formed), of silk hydrogel bionanocomposites do not reveal any noticeable structural changes of silk hydrogels, while their biocompatibility is not impacted by the incorporation of NPs. Finally, a potential application for each bionanocomposite is presented. In a biomedical perspective, silk-Ag NPs hydrogels bionanocomposites show significant antibacterial activity. Silk-IONPs hydrogel bionanocomposites are implanted into rat’s brain allowing a good monitoring of the implant by magnetic resonance imaging and inducing a brain regeneration process up to 3 months. In depollution perspective, silk-Au NPs hydrogel bionanocomposites show remarkable ability to adsorb and catalyze the reduction of methylene blue dye by sodium borohydride
Silva, Mariana Rodrigues Ferreira da. "Active and intelligent bionanocomposites for food packaging." Master's thesis, Universidade de Aveiro, 2017. http://hdl.handle.net/10773/22400.
Full textA produção de plásticos, baseados no uso de combustíveis fósseis, está a aumentar e estima-se que esta tendência continuará no futuro com impactos ambientais consideráveis. Os bioplásticos são uma alternativa amiga do ambiente. Biopolímeros como quitosana já foram adotados com sucesso para produzir bioplásticos que agem como substitutos do plástico em embalagem. A quitosana foi selecionada devido às suas numerosas vantagens para embalagem alimentar, principalmente devido às suas atividades antioxidantes e antimicrobiana. Por outro lado, o dióxido de titânio foi selecionado como aditivo devido à sua capacidade de retirar oxigénio do ambiente e devido à possibilidade de poder ser facilmente funcionalizado para a formação de um sensor. Isto permitiria a formação de uma embalagem ativa e inteligente na proteção do alimento. Assim, nanopartículas homogéneas arredondadas e monofásicas de anatase de dióxido de titânio (TiO2) foram usadas para melhorar os filmes de quitosana, criando um bionanocompósito. Estas nanopartículas de TiO2 foram produzidas por síntese hidrotermal, tendo sido otimizadas as condições de síntese, como a temperatura e tempo, para selecionar as condições que originam as nanopartículas com as caraterísticas desejadas. As condições escolhidas para a produção do TiO2 foram 200 ºC e 2,5 h devido ao tamanho, dispersão e tipo de nanoparticulas de TiO2 produzidas. Os filmes de quitosana foram preparados com cerca de 9 mg de nanopartículas de TiO2. Para criar uma embalagem ativa e inteligente compostos fenólicos (principalmente antocianinas) de arroz preto (Oryza sativa L. Indica) foram adicionados para funcionalizar o TiO2 (4,1 mg de extrato por filme). Os filmes foram caracterizados em relação à sua atividade antioxidante, humidade, solubilidade, hidrofobicidade da superfície e propriedades mecânicas. Os melhores resultados foram obtidos nos filmes com nanopartículas e compostos fenólicos e foi demonstrado que a forma como cada componente é adicionado altera as suas propriedades. Os melhores resultados foram o aumento da atividade antioxidante, diminuição da solubilidade e da elasticidade, elongação e resistência à tração no filme composto por pigmento e TiO2,. No entanto nestes últimos três parâmetros, a sua diminuição pode ser um aspeto positivo ou negativo dependendo das propriedades desejadas para o filme e o produto alimentar a embalar
Plastic production based in fossil fuels is rising, and predictions supports it continuous and enhanced use, with consequent environmental damage. Bioplastics are an environmentally friendly alternative. Biopolymers as chitosan have already been successfully used to produce bioplastics that act as plastic substitutes in packaging. Chitosan was chosen for its numerous advantages for food packaging namely due to its antioxidant and antimicrobial activities. On the other hand, TiO2 was selected due to its oxygen scavenging ability and due to its possibility to be easily functionalised to create a sensor. This would allow the construction of an active and intelligent packaging for food protection. Thus, monophasic anatase homogeneous round-shaped nanoparticles of titanium dioxide (TiO2) were used as filler to improve the chitosan films, creating a bionanocomposite. These TiO2 nanoparticles were produced via a hydrothermal method and its synthesis was optimized testing various reaction times and temperatures to find the conditions that create TiO2 nanoparticles with the desired features. The conditions used for the chosen TiO2 were 200 ºC and 2.5 h due to the size, dispersion and TiO2 of the nanoparticles produced. The chitosan films were prepared with about 9 mg of TiO2 nanoparticles. To develop an active and intelligent food packaging, phenolic compounds (mainly anthocyanins) from black rice (Oryza sativa L. Indica) were used to functionalise the TiO2 (4.1 mg of extract in each film). The films were characterised regarding its antioxidant activity, humidity, solubility, surface hydrophilicity and mechanical properties. The best results were from films with both nanoparticles and phenolic compounds, and it was established that the order in which they are added alters its properties. The more notable improvements are an increase in antioxidant activity and a decrease in solubility, elasticity, elongation and tensile strength in the film containing pigment and TiO2. However, the reduction of the later three properties can either be positive or negative, it depends on desired properties for the film for a chosen food product
Nechyporchuk, Oleksandr. "Nanofibres de cellulose pour la production de bionanocomposites." Thesis, Université Grenoble Alpes (ComUE), 2015. http://www.theses.fr/2015GREAI056/document.
Full textOne of the main challenges in the context of biocomposites development is to replace petroleum-based materials with bio-based. Because of their natural origin, relatively high strength and the ability to form transparent products, cellulose nanofibers have a large potential for application in the composite materials. This work was focused primarily on the optimization of cellulose nanofiber production methods using biochemical and mechanical treatments, secondly on their rheological and structural properties in an aqueous medium and thirdly on the production of latex-based composites. The questions of homogeneous dispersion of cellulose nanofibers in the matrix and the interactions between these components for the purpose of matrix reinforcement are particularly addressed
Mousa, Mohanad Hashim. "Experimental Characterisation and Modelling of Sustainable Multiscaled Bionanocomposites." Thesis, Curtin University, 2018. http://hdl.handle.net/20.500.11937/75691.
Full textPiazzolla, Caterina. "Study of plasticised PLA based bionanocomposites reinforced with nanofibrillated cellulose." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2021.
Find full textVassalli, J. Todd Grant Sheila Ann. "Development of electrospun synthetic bioabsorbable fibers for a novel bionanocomposite hernia repair material." Diss., Columbia, Mo. : University of Missouri--Columbia, 2008. http://hdl.handle.net/10355/5631.
Full textBettini, Giacomo. "Bionanocomposites based on Plla, Pcl and montmorillonite: synthesis, characterization and crystallization." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2016. http://amslaurea.unibo.it/10025/.
Full textTouati, Souad. "Elaboration d'aérogels d'hydroxydes doubles lamellaires et de bionanocomposites à base d'alginate." Phd thesis, Université Blaise Pascal - Clermont-Ferrand II, 2013. http://tel.archives-ouvertes.fr/tel-00975932.
Full textLiu, HuiHua. "Synergistic interactions of plasticizers and nanoclays in hydrophilic starch based bionanocomposites." Thesis, Curtin University, 2011. http://hdl.handle.net/20.500.11937/1758.
Full textAbdullah, Zainab Waheed. "Polyvinyl Alcohol / Starch/ Glycerol/ Halloysite Nanotube Bionanocomposites for Biodegradable Packaging Applications." Thesis, Curtin University, 2019. http://hdl.handle.net/20.500.11937/81687.
Full textÜNALAN, İ UYSAL. "POTENTIAL USE OF GRAPHENE FOR THE GENERATION OF BIONANOCOMPOSITE MATERIALS FOR FOOD PACKAGING APPLICATIONS." Doctoral thesis, Università degli Studi di Milano, 2014. http://hdl.handle.net/2434/245012.
Full textThe development of new packaging materials offering new functionalities, less environmental impact, and economical benefits is nowadays an urgent necessity. The advent of nanotechnology opened new possibilities toward this goal, e.g. by the generation of a new class of bionanocomposite films or coatings for “greener” packaging structures with same or even better overall performance compared to the conventional materials. This PhD thesis has been conceived as an effective and promising strategy for the development of biopolymer nanocomposites based on graphene specifically intended for food packaging applications. Within this context, the use of graphene aims to prompt new research on this unexplored inorganic filler in the food packaging sector as a potential alternative to the currently used solutions. The overall project has been divided into four parts. In the first part, the use of pullulan to produce graphene oxide (GO)-bionanocomposites was investigated for the first time in terms of oxygen barrier, tensile, thermal, and optical properties. To get deep understanding on the physical arrangement of the newly generated biopolymer nanocomposites, both oxygen permeability and elastic modulus experimental data were compared with predictive models (Nielsen and Cussler models, and Halpin–Tsai model, respectively). These models, complemented by morphological observations, suggested that the simultaneous improvement of mechanical and oxygen barrier properties was attributed to three main effects: i) chemical affinity between GO and pullulan, which significantly enhanced the interfacial adhesion between the two phases; ii) prevalent unidirectional alignment of GO sheets in the pullulan matrix, parallel to the surface of nanocomposite films; and iii) high specific surface area and 2D geometry of GO. The results obtained in the first part disclosed the great potential of graphene-based pullulan bionanocomposites as oxygen barrier even at high relative humidity (70% RH) values. However, high cost of pullulan may limit its applications in food packaging. Therefore, in the second part, GO-enhanced pullulan/chitosan and pullulan/alginate blend systems were prepared using the same technique used in part 1. Compared to pure pullulan films, optimized bionanocomposite blend films exhibited enhanced mechanical and thermal properties and comparable oxygen performance while keeping the haze formation within the 3% threshold and transmittance below 90% at 550 nm, which are adequate values for most applications in the food packaging sector. These optimized formulations allowed achieving a well-balanced performance/cost ratio. The third part of the project was aimed to design bionanocoatings combining pullulan and GO to be applied on polyethylene terephthalate (PET). The rationale behind this approach lies in the fact that most examples on the use of nanosized fillers concern bulky biopolymers. Only very recently it has been proposed the use of fillers within coatings made of biopolymers to produce bionanocomposite coatings to improve the properties of a plastic substrate without jeopardizing its original attributes and optimize cost efficiency. Full exfoliation of GO platelets during preparation of the coating water dispersions was mediated by ultrasonic treatment, which turned out to be a pivotal factor in the oxygen barrier performance of the final material at 0 and 30% RH condition as well as in its stiffness, elongation, and friction properties. The fourth and last part of the PhD project focused on the graphene production. Specifically, the capability of three different biopolymers (the positively charged polyelectrolyte chitosan, the uncharged pullulan, and the anionic polyelectrolyte alginate) was evaluated to promote the direct exfoliation of graphite into graphene sheets in an aqueous medium by means of high-intensity ultrasonication. Findings arising from this work suggest that non-ionic pullulan and cationic chitosan are more effective to exfoliate graphite into graphene under ultrasonication than anionic alginate, which was attributed to thermodynamic reasons. This approach provides an economical, solvent-free, high-yield, and industrially scalable route for new applications of graphene-based nanocomposites, e.g. in the food packaging industr
Tavernelli, Alice. "Synthesis, characterization and crystallization of bionanocomposites based on PLLA, PCL and nanocellulose." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2015. http://amslaurea.unibo.it/9317/.
Full textCastro, Smirnov Fidel Antonio. "Physicochemical characterization of DNA-based bionanocomposites using nonafibrous clay minerals : biological applications." Thesis, Paris 11, 2014. http://www.theses.fr/2014PA112260/document.
Full textAmong the various clay minerals, sepiolite, which is a natural fibrous silicate, isa potential promising nanocarrier for the non-viral transfer of bio-molecules. Indeed,sepiolite has been shown to interact with biological molecules such as lipids,polysaccharides and proteins. Here, we show that sepiolite efficiently binds differenttypes of DNA molecules (genomic, plasmid, single strand and double strandoligonucleotides), introducing the first detailed study on the interaction mechanismsbetween sepiolite and DNA, as well as the physicochemical characterization of theresulting DNA-sepiolite bionanocomposites. The interaction mechanisms aresuggested to be electrostatic interactions, van der Waals forces, cation bridges, andhydrogen bonding. Spectroscopy analysis showed that the binding of DNA to sepiolitewas increased by polycations with valence dependent efficiency, and the DNApreviously adsorbed could be recovered with an efficiency that could be modulatedusing a chelating agent (EDTA), preserving the DNA structure and biological activity.Fourier-transform infrared spectroscopy identified the external silanol groups as themain sites of interaction with the DNA. It was proved that it is possible to use sepiolitefor extracting DNA from bacteria, for DNA purification and for purification from bacterialcontamination. By combining fluorescence microscopy, transmission electronmicroscopy (TEM), time-lapse video microscopy and flow cytometry analysis (FACS),we show that sepiolite can be spontaneously internalized into mammalian cells throughboth endocytic and non-endocytic pathways. As a proof of concept, we show thatsepiolite is able to stably transfer plasmid DNA into bacteria and mammalian cells. Itwas also proved that with the incubation of bacteria with the Sep/DNAbionanocomposite initially prepared in the presence of a low concentration of divalentcation, and using sonicated sepiolite (sSep), it is possible to increase the bacterialtransformation efficiency from 20 to 30-fold compared to previously reported methodswhich are based in the “Yoshida effect”. Additionally, we show that the efficiency ofsepiolite-mediated gene transfer can be optimized: the use of sSep and the exposureto the endosome disrupter chloroquine 100-fold and 2-fold stimulated DNA transfectionefficiency, respectively. These results open the way to the use of sepiolite-basedbionanocomposites as a novel class of hybrid nanocarriers for both potential genetherapy and the development of novel biological models of interest for academic andapplied sciences
GUADARRAMA, REYES SARAI CARMINA 259233, and REYES SARAI CARMINA GUADARRAMA. "Obtención de un bionanocomposito con nanopartículas biogénicas de plata, para ser utilizado como hilo de sutura." Tesis de doctorado, Universidad Autónoma del Estado de México, 2018. http://hdl.handle.net/20.500.11799/94835.
Full textWallet, Brett. "Structural investigation of silk fibroin-based membranes." Thesis, Georgia Institute of Technology, 2014. http://hdl.handle.net/1853/51907.
Full textSiqueira, Gilberto Antônio De Freitas. "Processing and thermo-mechanical characterization of polymer bionanocomposites reinforced with microfibrillated cellulose and cellulose whiskers." Grenoble INPG, 2010. http://www.theses.fr/2010INPG0019.
Full textThis work describes the use of sorne Brazilian natural fibers (Sisal, Luffa Cylindnca and Capim Dourado) as sources of cellulose nanowhiskers and mierofibrillated cellulose (MFC) for the preparation of polymerie nanocomposites. It proposes a new way of obtaining cellulose nanoparticles and exploits their intrinsic properties. For this purpose tvvo main routes were investigated, namely (i) use of cllernically grafted cellulosic nanoparticles reacted with isocyanates and incorporated in a []-polyeaprolactone (PCl) matrix, and (ii) direct use of cellulose nanoparticles as reinforcement in a natural rubber (NR) matrix, The thermo-mechanical properties were investîgated by DSe and DMA. Ln both cases it was dernonstrated that low amounts of fillers provides high mechanical properties when cornpared ta the neat matrix, PCL or NR
Busse, Marta Julia. "Bionanocomposites of Fe3O4/SiO2 and alginate for magnetic removal of Cr(III) species from water." Master's thesis, Universidade de Aveiro, 2014. http://hdl.handle.net/10773/14196.
Full textThe aim of the present work was to study the removal of Cr (III) species from aqueous solutions by adsorption process, using magnetic nanoparticles functionalized with amine groups and with the polysaccharide alginate. Heavy metal pollution is serious environmental and public health problem worldwide. Chromium is one of the most toxic metal endangering human life. Cr(III) is often used in industry which caused water pollution. Therefore, increased interest by the researchers to employ nanomaterials for the removal contamination and explore adsorbents to replace expensive materials, particularly low-cost raw materials such as, residual polymers materials or agricultural by-products. The work included the preparation of magnetic nanoparticles, coating them with amorphous silica shell functionalized with amine groups and the covalent attachment of alginate to the magnetic nanoparticle. The properties of the nanoparticles were assessed by a number of experimental techniques namely x-ray diffraction, infrared spectroscopy, elemental analysis, thermogravimetry and zeta potential measurements. Silica coated magnetic nanoparticles functionalized with amine groups were investigated for the uptake of Cr(III)/EDTA complexes from water, while the nanoparticles attached to the alginate molecules were tested for the removal of aqueous Cr(III) ions. The kinetic results were fitted to models of pseudo first and pseudo second order and the equilibrium adsorption results were adjusted to suitable isotherm models such as Langmuir and Freundlich. The composite nanoparticles revealed affinity to the Cr(III) species. Due to its properties, this new composite nanoparticles may find interesting applications in purification of water.
O objectivo do presente trabalho foi o de estudar a eliminação de Cr (III), a partir de soluções aquosas, por processo de adsorção, utilizando nanopartículas magnéticas funcionalizadas com grupos amina e com o polissacarídeo alginato. A poluição causada por metais pesados está na base de graves problemas de saúde pública e ambientais em todo o mundo. O crómio é um dos metais mais tóxicos, pondo em perigo a vida humana. O Cr (III) é frequentemente usado na indústria, causando a poluição da água. Por esta razão, aumentou o interesse dos investigadores na utilização de nanomateriais para a remoção de poluentes e no estudo de adsorventes para substituir materiais caros, nomeadamente matérias-primas de baixo custo, tais como, materiais provenientes de polímeros residuais ou subprodutos agrícolas. Este trabalho incluiu a preparação de nanopartículas magnéticas, o seu revestimento com uma capa de sílica amorfa funcionalizada com grupos de amina e a ligação covalente do alginato à nanopartícula magnética. As propriedades das nanopartículas foram avaliadas utilizando várias técnicas experimentais nomeadamente difracção de raios-X, espectroscopia de infravermelho, análise elementar, termogravimetria e medições do potencial zeta. As nanopartículas magnéticas revestidas com sílica e funcionalizadas com grupos de amina foram investigadas para a adsorção de Cr (III) / complexos de EDTA de águas, enquanto que as nanopartículas ligadas às moléculas de alginato foram testadas para a remoção de iões Cr (III) em meio aquoso. Os resultados de cinética foram ajustados aos modelos de pseudo-primeira e pseudo-segunda ordem, e os resultados de equilíbrio de adsorção foram ajustados aos modelos adequados, tais como a isotérmica de Langmuir e a de Freundlich. As nanopartículas compósitas revelaram ter afinidade para as espécies de Cr (III). Devido às suas propriedades, estas nova nanopartículas compósitas podem encontrar aplicações interessantes na purificação de águas.
Nunes, Juliana Carla. "Preparação e caracterização de filmes comestíveis baseados em gelatina, chá-verde e nanoemulsão de óleo essencial de limão /." Ilha Solteira, 2018. http://hdl.handle.net/11449/156001.
Full textResumo: Diante da crescente preocupação com os impactos ambientais relacionados ao uso de polímeros sintéticos, estudos visando à obtenção e aplicação de materiais poliméricos de fontes renováveis vêm aumentando, como por exemplo, o desenvolvimento de filmes comestíveis à base de polímeros naturais. Para a obtenção de filmes comestíveis necessita-se de um material polimérico que forme uma matriz homogênea e contínua. A gelatina é um polímero natural, de fonte abundante, biodegradável e biocompatível e tais características motivam sua utilização como matriz em filmes comestíveis. O uso de extrato de chá-verde e óleo essencial de limão em filmes de gelatina é uma alternativa para melhoria de suas características físicas e organolépticas para uma aplicação inovadora do produto como sachê de chá. Neste contexto, o objetivo do presente estudo foi preparar, caracterizar e avaliar a influência do extrato de chá-verde e da nanoemulsão de limão nas propriedades de solubilidade, mecânicas, térmicas e de permeabilidade ao vapor de água da matriz de gelatina. A nanoemulsão apresentou tamanho médio de 171 ± 3 nm e potencial zeta de -10,9 ± 0,1 mV. Os filmes foram obtidos por casting a partir de soluções filmogênica de gelatina com extrato de chá verde e nanoemulsão de limão. A adição de chá verde ocasionou um aumento da tensão máxima de ruptura do filme de gelatina de 86 ± 7 MPa para 101 ± 5 MPa e quando a nanoemulsão foi adicionada o valor diminuiu para 78 ± 8 MPa. A incorporação de chá-verde e ... (Resumo completo, clicar acesso eletrônico abaixo)
Abstract: In view of the growing concern about the environmental impacts related to the use of synthetic polymers, studies aimed to obtain and apply polymeric materials from renewable sources have been increased, as the development of edible films based on natural polymers. To obtain edible films, a polymeric material is needed to form a homogeneous and continuous matrix. Gelatin is a natural polymer, from an abundant source, biodegradable and biocompatible and such characteristics motivate its use as a matrix in edible films. The use of green tea extract and lemon essential oil in gelatin films is an alternative to improve its physical and organoleptic characteristics for an innovative application of the product as a tea bag. In this context, the objective of the present study was to prepare, characterize and evaluate the influence of the green tea extract and the lemon nanoemulsion on the solubility, mechanical, thermal and water vapor permeability properties of the gelatin matrix. The nanoemulsion had an average size of 170.6 ± 3 nm and a zeta potential of -10.9 ± 0.1 mV. The films were obtained by casting from filmogenic solutions of gelatin with green tea extract and lemon nanoemulsion. The addition of green tea caused an increase in the maximum tensile stress of the gelatin film from 86 ± 7 MPa to 101 ± 5 MPa and when the nanoemulsion was added the value decreased to 78 ± 8 MPa. The incorporation of green tea and nanoemulsion increased the permeability of water vapor and the solu... (Complete abstract click electronic access below)
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Pilon, Andrea S. "The Development and Characterization of a Bionanocomposite Tissue Engineering Scaffold Consisting of Poly(lactic acid) (PLA) and Monetite for Bone Regeneration." University of Toledo / OhioLINK, 2010. http://rave.ohiolink.edu/etdc/view?acc_num=toledo1278433227.
Full textFerreira, Leite Liliane Samara. "Préparation et caractérisation de bionanocomposites à base de protéines et nanocristaux de cellulose par casting continu." Thesis, Université Grenoble Alpes, 2020. http://www.theses.fr/2020GRALI063.
Full textThis Ph.D. thesis covers the production and characterization of gelatin-cellulose nanocrystals (CNCs) bionanocomposite films intended for multifunctional food packaging. The up-scalability of the gelatin/CNCs films was attained by continuous casting and the rheological parameters of the film-forming solutions and drying temperature required to produce 12 m film/h were established. The continuous casting processing was proven to be advantageous when compared to the bench solution casting method. Tensile tests, thermogravimetric analysis, and water vapor permeability analysis showed that the continuously cast gelatin/CNCs films had exceptionally better performance than the films obtained by bench casting. The physical and structural properties of the gelatin/CNCs bionanocomposites as tailored by pH-dependent electrostatic interactions were investigated. The suitability of CNCs was successfully extended by functionalization with rosin (r-CNCs), thus giving rise to antimicrobial reinforcing agents. Tensile tests and antimicrobial analysis showed that r-CNCs served as bacterial nanofillers in gelatin-based films, which otherwise would suffer from limited physical and biological properties. Plant-derived tannic acid was successfully used as an antioxidant and bactericidal additive, as another perspective of extending the potential of the gelatin/CNCs films as a packaging material. Non-oxidized tannic acid favored non-covalent interactions and intermolecular connections between gelatin, CNCs, and tannic acid. These physico chemical interactions showed to have a greater influence on the antioxidant and physical properties of gelatin/CNCs/Tannic acid films. This thesis provides a comprehensive understanding of how CNCs can be explored to develop biodegradable films based on gelatin with enhanced properties or extra functionalities. A continuous solution casting was applied for scaling up the production of gelatin/CNCs-based films making them highly desirable for packaging applications
Dhanasekaran, Swaminathan Puttagounder. "Fabrication and characterization of highly porous peek bionanocomposites incorporated with carbon and hydroxyapatite nanoparticles for scaffold applications." Diss., Wichita State University, 2013. http://hdl.handle.net/10057/6420.
Full textZhou, Mengbo [Verfasser], Thomas [Gutachter] Heinze, and Felix [Gutachter] Schacher. "Magnetic bionanocomposites with low melting temperature : fabrication, characterization, and application / Mengbo Zhou ; Gutachter: Thomas Heinze, Felix Schacher." Jena : Friedrich-Schiller-Universität Jena, 2019. http://d-nb.info/1207272736/34.
Full textCoativy, Gildas. "Optimisation des propriétés de mémoire de forme de l’amidon : rôle des procédés thermomécaniques et apport de l’introduction de nanocharges." Nantes, 2013. http://archive.bu.univ-nantes.fr/pollux/show.action?id=dd59b6e5-214f-4120-a9fc-fc73e3210d86.
Full textStarch has shape memory properties: after hot forming and quenching, it is able to recover its initial shape by crossing the glass transition, by heating and/or by moisture uptake. The target of the present work is to improve the material’s thermomechanical performances during shape recovery. Two approaches were studied: the optimization of the hot forming process and the introduction of lamellar nanofillers (montmorillonites) in the matrix by twin screw extrusion. Model processes and specific structural and thermomechanical characterization methods allowed optimizing the elaboration process and allowed a better understanding of the shape memory and stress relaxation mechanisms. Composites containing 1 to 10% of nanofillers have been processed using a twin screw microcompounder allowing simulating the extrusion process. The best dispersion states were obtained without addition of a surfactant. Indeed, an aggregation of the nanoparticles was induced by the cationic starch used. The obtained bionanocomposites showed a significant increase of mechanical performances, without decrease of the shape memory properties and with an improvement of the relaxation stress. However, the shape relaxation kinetics appears to be slowed down. This could be related to a modification of the macromolecular dynamics observed in presence of the nanofiller by calorimetry and dynamic mechanical thermal analysis
Dall'Osso, Nicolò. "Shelf Life Assessment of Fresh Poultry Meat Packaged in Novel Bionanocomposite of Chitosan Incorporated with ZnO nanoparticles synthesized using food industry by-products." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2020. http://amslaurea.unibo.it/20653/.
Full textMansa, Rola. "Preparation and Characterization of Novel Montmorillonite Nanocomposites." Thèse, Université d'Ottawa / University of Ottawa, 2011. http://hdl.handle.net/10393/20207.
Full textCuadra, Ramírez Felipe Andrés. "Evaluación in vivo en modelo animal de la capacidad de bionanocompositos a base de nanopartículas de vidrio bioactivo para estimular la regeneración de tejido óseo." Tesis, Universidad de Chile, 2017. http://repositorio.uchile.cl/handle/2250/146855.
Full textIntroducción La reparación de tejidos óseos en odontología es una necesidad en distintos tipos de cirugías. Sin embargo, los autoinjertos, aloinjertos y xenoinjertos que existen en el mercado presentan limitada capacidad osteogénica que no siempre permiten obtener resultados clínicos satisfactorios. Por esta razón la ingeniería de tejidos cobra importancia, ya que esta disciplina busca la síntesis de injertos aloplásticos o biomateriales sintéticos, que superen las capacidades regenerativas de los injertos tradicionales. En tesis anteriores, pertenecientes a este mismo proyecto se sintetizaron y evaluaron in vitro bionanocompósitos a base de andamios de quitosano/gelatina (QG) y poliuretano biodegradable (PU), cargados con nanopartículas de cerámicas de vidrio bioactivo (nBG y nMBG). Los resultados concluyeron que estos biomateriales son capaces de inducir la formación de apatita y la diferenciación osteogénica de células madre. El presente trabajo de tesis tiene como objeto evaluar in vivo la capacidad de regeneración de tejido óseo de los mismos bionanocompósitos, utilizando para ello un modelo animal. Hipótesis Bionanocompósitos cargados con nanopartículas de vidrio bioactivo presentan capacidad de regeneración ósea in vivo superior a la presentada por los andamios puros. Objetivo Compar ar l a capaci dad de r egener aci ón ósea in vivo de bionanocompósitos cargados con nanopartículas de vidrio bioactivo respecto a los andamios puros y los controles. Materiales y métodos Los bionanocompósitos a utilizar en este trabajo, fueron preparados y evaluados in vitro en tesis anteriores del presente proyecto. Los bionanocompósitos evaluados fueron: bionanocompósitos de quitosano/ gelatina cargados nanopartículas de vidrio bioactivo (nBG) y nanoesferas de vidrio bioactivo mesoporoso (nMBG) en forma de esponjas porosas (nBG/QGSP/QG- SP) y de y nMBG/QG-SP) y esferas en estado gel (nBG/QG-SF y nMBG/QG-SF) (Cádiz, Covarrubias, y cols., 2015) y el andamio puro DE de quitosano/gelatina sin las nanopartículas (QG-SP). Además se probaron andamios de poliuretano puro (PU) y con nanopartículas de vidrio bioactivo (nBG/PU y nMBG/PU) (Agüero, Covarrubias, 2015). Como referencia de material clínico se utilizó el aloinjerto comercial Puros® Particulate Allograft (Zimmer Dental). Los bionanomateriales se evaluaron in vivo utilizando un protocolo de modelo animal en rata, el cual fue aprobado por el Comité de Bioética sobre Investigación en Animales de la Facultad de Medicina, Universidad de Chile (Protocolo CBA# 0542 FMUCH, Anexo 1). Todo el procedimiento estuvo regido de acuerdo a protocolos del comité de bioética institucional, correspondiente a los cuidados antes, durante y después del procedimiento quirúrgico. Se utilizaron en total 22 ratas (Sprague Dawley) en las cuales se generó un defecto óseo que cumplía con el tamaño crítico del defecto (4 mm) y luego se implantaron un injerto en cada uno. Después de 8 semanas de implantación los animales fueron eutanasiados y se obtuvo muestras de tejido, correspondiente a la zona del defecto óseo en la cual se realizó el injerto. Las muestras de tejidos obtenidas fueron incluidas en resina y caracterizadas mediante análisis con microscopía electrónica de barrido en modalidad backscattering (SEM-BS), análisis elemental con energía dispersiva de rayos X (EDX) y microtomografía computarizada de rayos - x (Micro-CT). Resultados Como era de esperar el defecto óseo sin tratamiento no reparó por sí solo, mientras que todos los biomateriales estudiados presentaron capacidad de estimular la formación de tejido óseo en diferentes grados. En control positivo Puros® reparó con corticales continuas pero de menor espesor. Los bionanocompósitos de nBG/QG-SP presentaron en general corticales continuas, y de espesor similar al resto de las corticales del mismo hueso. Los bionanocompósitos a base de PU presentaron formación de tejido óseo con corticales abombadas, irregulares, con centros de densidad mixta que invaden el espacio medular. Los compósitos de nBG/QG-SF y de nBG/QG-SP fueron quienes presentaron mejor capacidad de estimular la formación de tejido óseo, en términos de cantidad y densidad de hueso formado. Estos materiales presentaron también una capacidad regenerativa mayor que el aloinjerto comercial Puros®. Los resultados demuestran que los materiales con la nanopartícula nBG son más eficientes que aquellos preparados con nMBG lo anterior debido a que nBG posee menor tamaño de partícula (70 nm) y por lo tanto posee mayor tasa de disolución y liberación de iones capaces de inducir la formación de hidroxiapatita. Con respecto al tipo de polímero de los andamios, el QG presentó mejores propiedades que PU, debido principalmente a la mayor biodegradabilidad de QG respecto a PU. Se encontró además que en cuanto los formatos de presentación, esferas en estado gel y esponjas liofilizadas, ambos presentan características favorables y su utilidad dependerá de las características clínicas del defecto que se requiera reparar. Conclusión Todos los bionanocompósitos con vidrio bioactivo fueron capaces de inducir calcificación y reparación de los defectos óseos en modelos animal en ratas, en especial los scaffolds cargados con nBG (nBG/QG-SP y nBG/QG-SF), quiene presentaron resultados superiores incluso que el aloinjerto comercial Puros®.
Adscrito a Proyecto FONDECYT 1130342
Souza, Josefa Virginia da Silva. "Preparação e caracterização de bionanocompósitos à base de gelatina e magnetita reticulados com sacarose." Universidade do Estado do Rio de Janeiro, 2012. http://www.bdtd.uerj.br/tde_busca/arquivo.php?codArquivo=3532.
Full textCoordenação de Aperfeiçoamento de Pessoal de Nível Superior
Nesta dissertação, foram estudadas a preparação e a caracterização debionanocompósitos à base de gelatina e magnetita. Sacarose foi empregada comoagente de reticulação e gelatina tipo A e gelatina tipo B foram comparadas nautilização para a preparação das microesferas por meio de emulsão água-em-óleo.As microesferas foram caracterizadas por VSM, DSC, TGA, FTIR, testes deinchamento, espectroscopia de absorção atômica, microscopia ótica e microscopiaeletrônica de varredura. Um planejamento de experimentos variando-se aconcentração de gelatina e de sacarose, a temperatura e a velocidade de agitaçãofoi realizado a fim de encontrar quais parâmetros influenciam o diâmetro dasmicroesferas. A concentração de gelatina e velocidade de agitação foram osparâmetros diretamente associados com os tamanhos de partículas. A distribuiçãode tamanho das partículas revelou que o diâmetro das microesferas variou de 5 a 60micrômetros, com predominância na faixa de 11 a 30 micrômetros. A extensão dareticulação foi aumentada com o aumento do tempo de aquecimento na etapa depreparação das microesferas. Todos os bionanocompósitos apresentaramsuperparamagnetismo. Os resultados mostraram que não há diferença significativa entre a utilização de gelatina do tipo A e gelatina do tipo B. Além disso, o estudo de reticulação degelatina revelou que, ao contrário do que diz a literatura, a sacarose não é umagente de reticulação para as cadeias proteicas, pois não foram encontradasevidências de uma reação química entre a sacarose e gelatina
The preparation and characterization of microbeads based on gelatin and magnetite are reported. Sucrose was employed as crosslinking agent and type A gelatin and type B gelatin were compared for preparation of microspheres by water-in-oil emulsion. The microbeads were characterized by VSM, DSC, FTIR, swelling ratio, atomic absorption spectroscopy and optical and scanning electronic microscopy. The influence of gelatin and sucrose concentration, temperature and stirring speed on the microbeads characteristics was studied. The gelatin concentration and stirring speed were the parameters directly associated with the particle sizes. The particle size distribution revealed that the diameter of the microspheres ranged from 5 to 60 micrometers, with predominance in the range from 11 to 30 micrometers. The extent of cross linking increased as a function of preparation heating time periods. The microbeads presented superparamagnetism. The results show that have no significant difference between the utilization of type A gelatin and type B gelatin. In addition, the gelatin crosslinking study revealed that sucrose is not a crosslinking agent because there was no evidence of chemical reaction between sucrose and gelatin
Silva, Ingrid Souza Vieira da. "Nanocompósitos de pectina reforçados com nanocristais de celulose para utilização como revestimentos para morangos." Universidade Federal de Uberlândia, 2015. https://repositorio.ufu.br/handle/123456789/17438.
Full textIn this work, the effects of the incorporation were valued of cellulose nanocrystals of the wood pulp of Eucalyptus urograndis from three different times of acid hydrolysis (20, 50 and 80 minutes) in order to determine which of three types of nanocrystals would be most appropriate in the reinforcement function for the matrix of apple pectin. The films were characterized using dynamic mechanical thermal analysis to choose the best reinforcement element in terms of improvement in mechanical properties. After choosing the appropriate filler, new nanocomposites were produced with the percentages of 1, 2, 4 and 8% w/w in relative to the final mass of 0.5 g of each nanocomposite film. The films were manufactured by casting method, in the presence and absence of glycerol as plasticizer in the formulations. These nanocomposite films were characterized using the techniques of water vapor permeability and gases, with the aim of evaluating the barrier properties, contact angle with water in order to verify the hydrophillicity of the material, and dynamic mechanical thermal analysis for evaluating mechanical properties. The nanocrystals extracted with fifty minutes hydrolysis (NC50) were the ones that stood out in terms of improvement in mechanical properties, due to the significant increase in the values of E\'. The nanocomposite films acted as a barrier to passage of gases due to its dense structure, without pores and homogeneous. The formulations of the nanocomposite films with 8% w/w of cellulose nanocrystals in the absence and presence of glycerol were used for coating of strawberries, the comparatives were made with poly (vinyl chloride) film, in relation to weight loss (%) and texture analysis in terms of Puncture Strength the film and Puncture deformation suffered by them. The results showed that the nanocomposite films with glycerol and poly (vinyl chloride) showed comparable values in terms of weight loss, and the glycerol incorporation provided a gain in flexibility of these films. Additionally this same formulation was used in the formulations of the edible coatings and the incorporation of essential oil of lemon grass in the formulations, in order to study the antifungal potential of this compound for coating strawberries. The formulation (18.20 mL of suspension the cellulose nanocrystals fifty minutes, NC50, 230 mL of suspension of apple pectin, 0.50 mL glycerol and 0.12 mL of essential oil of lemon grass) whose processes of immersion were performed twice. This formulation, was the one that stood out in terms of reduction of weight loss, around 5% for the strawberry coated with this formulation and on the other hand 12% for uncoated, analyzed in the time of two days, time that these fruits should be consumed when fresh and stored under satisfactory conditions. So with this work it was observed that the addition of cellulose nanocrystals acted as reinforcement elements for the matrix in the study, these films are hydrophilic and acted as a barrier to passage of gases. The addition of glycerol causes changes in mechanical, thermal and barrier properties of the nanocomposites. According to applicability tests the same base formulation can be used in two different perspectives: coating strawberries in the form of films and as ingredients for preparing the edible coatings to extend shelf life of these fruits which have an extremely short life-time due to rapid metabolism thereof.
Neste trabalho, foram avaliados os efeitos da incorporação de nanocristais de celulose da polpa de madeira de Eucalyptus urograndis a partir de três tempos distintos de hidrólise ácida (20, 50 e 80 minutos) a fim de determinar qual dos três tipos de nanocristais seria o mais adequado na função de reforço para a matriz de pectina de maçã. Os filmes foram caracterizados utilizando análise térmica dinâmico mecânica, para a escolha do melhor elemento de reforço em termos de melhora nas propriedades mecânicas. Após a escolha do elemento de reforço mais adequado, novos nanocompósitos foram produzidos com as percentagens de 1, 2, 4 e 8% m/m em relação à massa final de 0,5 g de cada filme nanocompósito. Os filmes foram obtidos através do método de casting, na presença e na ausência de glicerol como plastificante nas formulações. Estes filmes nanocompósitos foram caracterizados através das técnicas de permeação aos vapores de água e a gases, com intuito de se avaliar as propriedades de barreira, ângulo de contato em água a fim de verificar a hidrofilicidade dos materiais, e análise térmica dinâmico mecânica para avaliação das propriedades mecânicas. Os nanocristais extraídos com cinquenta minutos de hidrólise (NC50) foram os que mais se destacaram em termos de melhora em propriedades mecânicas, devido ao aumento significativo nos valores de E‟. Os filmes nanocompósitos atuaram como barreira a passagem de gases, devido a sua estrutura densa, homogênea e sem poros. As formulações dos filmes nanocompósitos com 8% m/m de nanocristais de celulose na ausência e na presença de glicerol foram utilizados no revestimento de morangos, e os devidos comparativos foram feitos com o filme de policloreto de vinila, com relação à perda de massa (%) e análise de textura em termos de força máxima para a perfuração dos filmes, bem como a deformação sofrida pelos mesmos. Os resultados mostraram que os filmes nanocompósitos com glicerol e policloreto de vinila apresentaram valores comparáveis em termos de minimização de perda de massa, e a incorporação do glicerol proporcionou um ganho em flexibilidade destes filmes. Adicionalmente esta mesma formulação foi usada nas formulações dos revestimentos comestíveis, além da incorporação do óleo essencial de capim-limão as formulações com a finalidade de estudar a potencialidade antifúngica deste composto para revestir morangos. Os devidos comparativos foram feitos com os morangos não revestidos. A formulação (18,20 mL de suspensão de nanocristais de celulose, NC50, 230 mL de suspensão de pectina de maçã, 0,50 mL de glicerol e 0,12 mL de óleo essencial de capim-limão) cujos processos de imersão foram realizados por duas vezes. Sendo esta, a que mais se destacou em termos de redução de perda de massa em torno de 5% para o morango revestido com esta formulação e em contrapartida 12% para o não revestido, analisados no tempo de dois dias, tempo esse que estes frutos devem ser consumidos quando in natura e armazenados sob condições satisfatórias. Assim, com este trabalho foi possível observar que a adição de nanocristais de celulose atuou como elementos de reforço para a matriz em estudo, os filmes são hidrofílicos e atuaram como barreira a passagem de gases. A adição de glicerol provocou alterações nas propriedades mecânicas, de barreira e térmica dos nanocompósitos. E diante dos testes de aplicabilidade, uma mesma formulação base pode ser empregada em duas perspectivas distintas: para revestir morangos na forma de filmes e como ingredientes para o preparo dos revestimentos comestíveis, a fim de se estender o tempo de prateleira destes frutos que é extremamente curto, devido ao metabolismo acelerado dos mesmos.
Mestre em Química
Silva, Nuno Hélder da Cruz Simões. "Production of protein nanofibers and their application in the development of innovative materials." Doctoral thesis, Universidade de Aveiro, 2018. http://hdl.handle.net/10773/23348.
Full textAs nanofibras proteicas, também conhecidas como fibrilas amilóide, estão a ganhar muito interesse devido às suas propriedades únicas, nomeadamente elevada resistência mecânica e propriedades funcionais. Estas nanofibras caracterizam-se por depósitos proteicos que resultam de um processo onde a molécula proteica adquire uma conformação estrutural em folhas-β. Dadas as suas propriedades, estas nanofibras têm sido estudadas como elementos estruturais e funcionais no desenvolvimento de materiais inovadores para aplicação em diferentes áreas como, por exemplo, em biosensores, membranas bioactivas e estruturas tridimensionais (scaffolds) para engenharia de tecidos. No entanto, uma das principais limitações na exploração de nanofibras proteicas está relacionada com o tempo necessário para a sua produção, uma vez que a fibrilação é um processo moroso que pode levar horas, dias ou até mesmo semanas. A utilização de solventes alternativos como agentes promotores de fibrilação, nomeadamente líquidos iónicos (ILs), foi recentemente demonstrada como uma via para reduzir o tempo de fibrilação. Estes resultados serviram de inspiração para estudarmos o processo de fibrilação de uma proteína modelo, a lisozima, em soluções aquosas de líquidos iónicos baseados nos catiões imidazólio ou colina com diferentes aniões derivados de ácidos orgânicos. A presença de qualquer um dos ILs testados no meio de fibrilação demonstrou ser muito eficiente obtendo-se taxas de conversão superiores a 80% de fibrilas. Seguindo uma abordagem semelhante, estudou-se também um solvente eutéctico profundo (DES) baseado em cloreto de colina e ácido acético (1:1) como possível promotor da fibrilação da lisozima, diminuindo-se o tempo de fibrilação de 8-15 h para apenas 2-3 h. Foi também demonstrado que a temperatura tem um papel fundamental na aceleração da fibrilação e tanto a temperatura como o pH influenciam significativamente as dimensões das nanofibras, nomeadamente em termos de comprimento e largura. Com o objectivo de ajustar a razão de aspecto das nanofibras (razão comprimento/largura), foram ainda estudados vários DES baseados em cloreto de colina e com ácidos mono-, di- e tri-carboxílicos, tendo-se observado que o ácido carboxílico do DES desempenha um papel fundamental no comprimento das nanofibras produzidas, sendo as razões de aspecto sempre superiores às obtidas por fibrilação apenas com cloreto de colina. O potencial das nanofibras proteicas como elementos de reforço em materiais compósitos foi avaliado pela preparação de filmes nanocompósitos à base de pululano com nanofibras de lisozima em diferentes proporções. Foram obtidos filmes transparentes com maior resistência mecânica à tracção, particularmente para as nanofibras com razões de aspecto mais elevadas. Além disso, a incorporação de nanofibras de lisozima nos filmes de pululano conferiu propriedades bioativas aos filmes, nomeadamente capacidade antioxidante e atividade antibacteriana contra a Staphylococcus aureus. O aumento do conteúdo de nanofibras nos filmes promoveu um aumento das propriedades antioxidante e antibacteriano dos filmes, sugerindo-se como possível aplicação a utilização destes nanocompósitos como filmes comestíveis e ecológicos para embalagens alimentares bioactivas. As nanofibras de lisozima foram também misturadas com fibras de nanocelulose com o objectivo de produzir um filme sustentável para a remoção de mercúrio (II) de águas naturais. Os filmes foram obtidos por filtração sob vácuo e mostraram-se homogéneos e translúcidos. A incorporação das nanofibras de lisozima nos filmes de nanocelulose promoveu um reforço mecânico significativo. Em termos da capacidade de remoção de mercúrio (II) a partir de água natural, a presença das nanofibras de lisozima proporcionou um aumento muito expressivo com eficiências de 82% (pH 7) < 89% (pH 9) < 93% (pH 11), utilizando concentrações de mercúrio (II) de acordo com o limite estabelecido nos regulamentos da União Europeia (50 μg L-1). Em suma, foi demonstrado nesta tese que o uso de líquidos iónicos e de solventes eutécticos profundos assume um papel fundamental na formação de nanofibras de lisozima morfologicamente alongadas e finas, que podem ser exploradas no desenvolvimento de bionanocompósitos para diversas aplicações desde embalagens bioactivas a sistemas de purificação de água.
Protein nanofibers, also known as amyloid fibrils, are gaining much attention due to their peculiar morphology, mechanical strength and functionalities. These nanofibers are characterized as fibrillar assemblies of monomeric proteins or peptides that underwent unfolding-refolding transition into stable β-sheet structures and are emerging as building nanoblocks for the development of innovative functional materials for application in distinct fields, for instance, in biosensors, bioactive membranes and tissue engineering scaffolds. However, one of the main limitations pointed out for the exploitation of protein nanofibers is their high production time since fibrillation is a time-consuming process that can take hours, days, and even weeks. The use of alternative solvents, such as ionic liquids (ILs), as fibrillation agents has been recently reported with considerable reduction in the fibrillation time. This fact encouraged us to study the fibrillation of a model protein, hen egg white lysozyme (HEWL), in the presence of several ILs based on imidazolium and cholinium cations combined with different anions derived from organic acids. All ILs used were shown to fibrillate HEWL within a few hours with conversion ratios over than 80% and typically worm-like nanofibers were obtained. In another study, a deep eutectic solvent (DES) based on cholinium chloride and acetic acid (1:1) was studied as a possible promoter of HEWL fibrillation, and a considerably reduction of the fibrillation time from 8-15 h to just 2-3 h was also observed. Temperature has a key role in the acceleration of the fibrillation and both temperature and pH significantly influence the nanofibers dimensions, in terms of length and width. In what concerns the nanofibers aspect-ratio, several DES combining cholinium chloride and mono-, di- and tri-carboxylic acids were studied. It was observed that carboxylic acid plays an important role on the length of the nanofibers produced with aspect-ratios always higher than those obtained by fibrillation with cholinium chloride alone. The potential of the obtained protein nanofibers as reinforcing elements was evaluated by preparing pullulan-based nanocomposite films containing lysozyme nanofibers with different aspect-ratios, resulting in highly homogenous and transparent films with improved mechanical performance, particularly for the nanofibers with higher aspect-ratios. Furthermore, the incorporation of lysozyme nanofibers in the pullulan films imparted them also with bioactive functionalities, namely antioxidant capacity and antibacterial activity against Staphylococcus aureus. The results showed that the antioxidant and antibacterial effectiveness increased with the content of nanofibers, supporting the use these films as, for example, eco-friendly edible films for active packaging. Lysozyme nanofibers were also blended with nanocellulose fibers to produce a sustainable sorbent film to be used in the removal of mercury (II) from natural waters. Homogenous and translucent films were obtained by vacuum filtration and the incorporation of these nanofibers in a nanocellulose film promoted a considerable mechanical reinforcement. In terms of the capacity to remove mercury (II) from natural water, the presence of lysozyme nanofibers demonstrated to increase expressively the mercury (II) removal with efficiencies of 82% (pH 7) < 89% (pH 9) < 93% (pH 11), using realistic concentrations of mercury (II) under the limit established in the European Union regulations (50 μg L-1). In sum, it was demonstrated in this thesis that the use of ionic liquids and deep eutectic solvents can accelerate the formation of long and thin lysozyme nanofibers that can be explored as nanosized reinforcing elements for the development of bionanocomposites with applications ranging from food packaging to water purification systems and nanotechnology
Nevena, Vukić. "Strukturiranje kompozitnih materijala na osnovu poli(laktida) i ugljeničnih nanocevi." Phd thesis, Univerzitet u Novom Sadu, Tehnološki fakultet Novi Sad, 2019. https://www.cris.uns.ac.rs/record.jsf?recordId=111137&source=NDLTD&language=en.
Full textIn this thesis, bionanocomposites based on poly(lactide) and multi-walled carbon nanotubes were synthesized and characterised. Poly(L-lactide) was used as a matrix for the composite synthesis; the influence of nanofillers content, the methods of their functionalization, as well as the synthesis parameters, on the properties of obtained materials were investigated. In order to achieve a uniform dispersion of nanofillers in composite materials, multi-walled carbon nanotubes were modified using chemical and radiation functionalization. Characterization of carbon nanotubes was performed in order to determine the influence of applied modification techniques on their properties and degree of functionalization. A series of composite materials with different content of modified nanotubes were prepared by in situ polymerization of L-lactide from the surface of functionalized nanotubes. The influence of functionalized nanotubes on the thermal, crystal, morphological, mechanical and electrical properties of synthesized composites was investigated in detail. The homogeneous dispersion of carbon nanotubes within the biodegradable, biocompatible, biobased polymer matrix, has influenced the improvement of the properties, as well as the acquiring of new functionalities of synthesized materials. The significant improvement of thermal and mechanical properties of composites, and the achievement of its electrical conductivity, allow the field of application of composites based on poly(lactide) and carbon nanotubes to be expanded.
Guzmán, Sierra Dayana Lizethe. "Flexible piezoelectric bionanocomposites for biomedical sensors." Master's thesis, 2018. http://hdl.handle.net/10773/25894.
Full textNas últimas décadas, tem havido um interesse crescente no desenvolvimento de novos materiais com o intuito de alcançar a "Internet of Things (IoT)" que prevê a ligação de 20 a 30 bilhões de dispositivos à internet até 2020. A implementação da “Internet of Things” exige o desenvolvimento de tecnologia base, onde se incluem os dispositivos de captação de energia, atuadores e sensores. Os sensores são muitas vezes utilizados em aplicações biomédicas que exigem flexibilidade, biocompatibilidade e sustentabilidade. Neste contexto, a motivação deste trabalho foi a preparação de um bionanocompósito para sensores piezoelétricos biocompatíveis para aplicações biomédicas. Assim, escolheu-se como matriz um polissacarídeo que tem a capacidade de formar películas (filmes) facilmente, e partículas de titanado de bário que é um material ferroeléctrico e piezoeléctrico à temperatura ambiente, não possuindo chumbo na sua composição. As partículas de BaTiO3 foram sintetizadas por método hidrotermal a temperatura moderada (200 °C) e na ausência de solventes orgânicos. Foram estudadas vários tempos de reação de forma a selecionar as condições ideais para a preparação das partículas com as propriedades adequadas para a incorporação nos filmes à base de quitosana. A caracterização estrutural por difração de raios-X (DRX) e espectroscopia de Raman permitiu verificar que as partículas sintetizadas a 200 °C apresentavam, ao fim de 24 horas de síntese, a estrutura cristalográfica tetragonal bem definida. As partículas mostraram morfologia cúbica uniforme e tamanho médio de cerca de 306 nm. Em geral, os tamanhos das partículas e de cristalites aumentam com o tempo de reação. Os filmes foram obtidos pelo método de evaporação de solvente, após a dispersão das partículas, em diferentes proporções, numa solução de quitosana. As propriedades estruturais (DRX) e morfológicas (SEM); físico-químicas (mecânicas, grau de humidade, solubilidade em água e ângulo de contacto e Raman); e elétricas (comportamento dieléctrico, curvas de histerese e resposta piezoelétrica à escala nanométrica) dos filmes foram caracterizadas. A adição de partículas melhorou as características mecânicas dos filmes de quitosana, tornando-os mais resistentes, elásticos e dúcteis. Estes filmes revelaram também serem mais resistentes à água, o que revela que existe uma interação entre as partículas e a matriz de quitosana. Em relação ao comportamento elétrico dos filmes, o aumento de partículas melhora a permitividade das amostras cinco vezes em relação ao material biopolimérico. Foi verificada uma grande dificuldade de deposição de elétrodos nos filmes flexíveis que se pode justificar com base nas características das amostras e/ou na inadequação das condições experimentais de deposição dos elétrodos na amostra. Como não foi possível medir a resposta piezoeléctrica à escala macroscópica, nem polarizar uma área da amostra de bionanocompósito, fez-se o estudo da resposta piezoelétrica à escala nanométrica por microscopia atómica de resposta piezoelétrica. Os filmes com a concentração mais elevada de nanopartículas mostraram claramente domínios piezoelétricos, não sendo, contudo, possível traçar uma curva de histerese aceitável nem polarizar uma pequena área do nanocompósito. Esta observação, juntamente com a análise por microscopia de potencial de superfície do filme controlo (só de quitosana) que indica a presença de cargas no polímero puro, leva à conclusão da existência de um comportamento do tipo electret pelo que será necessário encontrar uma estratégia para eliminar (ou reduzir) a contribuição da matriz. Apesar das dificuldades encontradas, os bionanocompóstos desenvolvidos, à base de quitosana e titanato de bário são promissores para serem usados em dispositivos biomédicos (por exemplo em compressas para libertação de fármacos, etc.) devido à sua elevada resistência mecânica, elasticidade e ductilidade, sendo adaptados a condições de elevado grau de humidade. Estes bionanocompósitos são ainda biocompatíveis e parcialmente biodegradáveis, tendo potencial para serem usados como alternativa aos polímeros sintéticos
Mestrado em Materiais e Dispositivos Biomédicos
Sureshkumar, Manthiriyappan, and 宋裕民. "MULTIFUNCTIONAL BIONANOCOMPOSITES FROM SUSTAINABLE RESOURCE FOR BIOTECHNOLOGY APPLICATIONS." Thesis, 2010. http://ndltd.ncl.edu.tw/handle/18019246682355060999.
Full text國立臺灣科技大學
化學工程系
98
The field of magnetic nanocomposites is fascinating from the aspect of integrating the key features of both polymers and magnetic nanoparticles into an attractive new generation hybrid material. The sustainable biopolymers such as cellulose, chitin and chitosan were used for this study. The synthesis of biopolymers-based magnetic nanocomposites was accomplished through co-precipitation method. Biopolymers homogenized with ferric and ferrous mixture followed by adjusting the homogenate to alkaline pH generates desired nanocomposites. Magnetic-bacterial cellulose (MBC), magnetic chitin (MCT) soaked in dopamine solution will be coated with an adherent self-polymerized multifunctional polydopamine layer on the surface of MBC and MCT. Polydopamine coated magnetic-bacterial cellulose contains multifunctional groups, which acts as a reducing agent for in situ preparation of reusable antibacterial Ag-nanocomposites. The Ag nanocomposite holds a high antimicrobial activity against Escherichia coli and Bacillus subtilis. Its application for in situ fermentation medium sterilization is also demonstrated. Further, polydopamine functionalized MCT also served as α-amylase immobilization matrix, starch hydrolysis efficiency was enhanced over wider pH and temperature ranges. The magnetically retrievable immobilized α-amylase retained over 70% of its original activity after six times of repeated use. Magnetite particles present in the PMBC can also serve as mimic peroxidase and polydopamine surface can immobilize glucose oxidase (GOX) to determine glucose concentration or remove glucose in the solution. MBC and PMBC are showed mimic peroxidase activity over wide pH and temperature range. Further, MBC magnetic-chitosan (MCTS) is modified with resacetophenone (RATP) formed Schiff- base can be utilized as immobilized metal affinity chromatography (IMAC) carrier for model poly-histidine tagged green fluorescent protein (GFP) purification. Likewise, under supercritical carbon dioxide (scCO2) condition ethanolic BC gel also acts as reducing agent to generate silver nanoparticle incorporated in the light-weight BC aerogels.
Macheca, Afonso. "Preparation and properties characterization of polyamide/clay bionanocomposites." Thesis, 2016. http://hdl.handle.net/2263/57490.
Full textThesis (PhD)--University of Pretoria, 2016.
tm2016
Mechanical and Aeronautical Engineering
PhD
Unrestricted
Malwela, Thomas. "The study of bionanocomposite thin films and their crystal growth behaviour." Thesis, 2014. http://hdl.handle.net/10210/12337.
Full textThis study focuses on the morphology and crystal-growth behaviour of polyactide (PLA)-based blends and blends modified with organoclay thin films. The study further examined the effect of blending and the incorporation of organoclays on the enzymatic degradation behaviour. Thin films of unmodified and nanoclay-modified PLA/poly(butylene succinate) (PBS) blends were cast on a glass substrate by a spin coater, while thin films of biodegradable PLA/poly[(butylene succinate)-coadipate] PBSA blends and blends containing organoclays were cast on a silicon (100) wafer substrate. The morphology and crystal growth behaviour of the thin films crystallized at different temperatures were examined with an atomic force microscopy (AFM) equipped with a hot-stage scanner. In PLA/PBS blend thin films, AFM images showed that the size of the dispersed PBS phase was influenced by C30B clay loading on the blends. The dispersed size reduced on the addition of C30B clay up to 2 wt%, beyond which, dispersed size began to increase. Transmission electron microscopy studies indicated that this behaviour was due to the preferential location of silicates in the PBS phase than in the PLA phase. For thin films annealed at 60 °C, the additi on of organoclays to the blend quenched the growth of edge-on lamellae. The crystalline morphologies at 120 °C were dominated by edge-on lamellae grown, around the PBS phase to form spherulites. Morphologies of thin films crystallized at 120 °C from melt were dominated by the flat-on lamellae, while those crystallized at 70 °C from melt were dominated by the edge-on lamellae. In the case of PLA/PBSA blend thin films, the results indicated that the size and distribution of the dispersed phase were directly related to the blend composition. The crystal growth behaviours indicated the presence of homogeneous and heterogeneous nucleations, and the nature of nucleation was directly related to the blend ratio and the temperature at which crystallization occurred. Therefore, this study will facilitate the understanding of crystal growth behaviour in a confined environment and will enable the modulation of the blend properties.
Makhado, Edwin. "Poly(ε-caprolactone) based bionanocomposites for food packaging application." Thesis, 2014. http://hdl.handle.net/10210/11345.
Full textUpadhyay, Rahul Kumar. "Development of Polyethylene Grafted Graphene Oxide Reinforced High Density Polyethylene Bionanocomposites." Thesis, 2017. http://etd.iisc.ernet.in/2005/3587.
Full textTsai, Kai-Hsun, and 蔡凱勛. "Fabrication of array-type glucose sensors using ultrasonic liquid atomizer for sprying γ-APTES/SiO2 bionanocomposite." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/17244784853860831648.
Full text國立暨南國際大學
應用材料及光電工程學系
101
The aim of this thesis focuses on the film deposition of γ-APTES mixed with PDMS-treated silica nanoparticles (NPs) by ultrasonic liquid atomizer for sensor applications, investigating the effects on glucose sensing property of the film in different NPs/γ-APTES weight ratio, different γ-APTES/C2H5OH concentration ratio, and ultraviolet (UV) light exposure. The reason we deposit the γ-APTES+NPs nanocomposite thin film on poly-silicon wire (PSW) by an ultrasonic liquid atomizer is that we might fabricate the glucose sensors array by batch production. We first characterize the surface morphology and measure the vertical leakage current by using atomic force microscopy (AFM). Then, the sensitivity of glucose sensors array is analyzed. It is found that the vertical leakage current of the sensing film increases with NPs/γ-APTES weight ratio in the range of 0% to 1%, and increases with the concentration ratio of (γ-APTES+NPs)/C2H5OH. In comparing the distribution of the values of vertical leakage current, we prove that a uniform γ-APTES+NPs nanocomposite thin film is successfully deposited by using ultrasonic liquid atomizer method. We find that the permance of the batch fabricated glucose sensor array is nearly as good as our previous result which was fabricated by AFM tip coating method. According to our experimental results, the optimal conditions for the glucose detection are 1% weight ratio for NPs/γ-APTES, 1% concentration ratio for (γ-APTES+NPs)/C2H5OH and 120 s for UV exposure. The lowest detection limit is less than 10-9 M, and the linear detection region is from 10-2 M to 10-7 M. Comparing with our previous results, the lowest detection limit and the linear region are nearly the same as the tip-coating method. The sensitivity is about 80% of that tip-coating result. The ultrasonic liquid atomizer spray method can effectively reduce the costs and simplify the process to achieve the goal of a rapid production for large area of sensing membrane.
Hsiao, Chi-Lin, and 蕭祺霖. "Fabrication of array-type dopamine sensors using ultrasonic liquid atomizer for spraying γ-APTES/SiO2 bionanocomposite." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/72399870932952718484.
Full text國立暨南國際大學
應用材料及光電工程學系
101
The purpose of the thesis is to use the ultrasonic liquid atomizer to spray the sensing membrane of a mixture of 3-aminopropyltriethoxysilane (γ-APTES) and polydimethylsiloxane (PDMS)-treated hydrophobic fumed silica nanoparticles (NPs) onto a polysilicon wire (PSW), investigating the characteristics of electrical interference of the PSW in detectingthe nerve substance of dopamine. The ultrasonic liquid atomizer we used might rapidly spray the γ-APTES+NPs onto the PSW with the advantages of large-area production as well as with good uniformity of the film. We used two methods to do the dopamine detections: 1. Using the 4-carboxyphenylboronic acid (CPBA) to modify the surfaces of γ-APTES- or γ-APTES+NPs-coated PSWs. The CPBA molecules were then used as interfacial layer for bonding dopamine molecules (CPBA modification method). 2. Using the tyrosinase to mix with dopamine solution to produce the hydrogen ions. The γ-APTES- or γ-APTES+NPs-coated PSWs were then used to capture the hydrogen ions (tyrosinase conversion method). We found the optimal conditions for sensitivity through changing the weight ratio of NPs/γ-APTES or the volume ratio of (γ-APTES+NPs)/C2H5OH. It was found that, for both the CPBA modification and tyrosinase conversion methods, the optimal conditions for two methods were the same, that is, the weight ratio of the NPs to γ-APTES was 1% and the volume ratio of the γ-APTES+NPs to C2H5OH was 0.2%. For the optimal conditions, the dopamine sensor exhibited the best performance of sensitivity and linear detection region in dopamine detections. For the CPBA modification method, the lowest detection limit is 10-6 M, and the linear region is in the range of 10-3 M ~ 10-6 M. For the tyrosinase conversion method, the lowest detection limit is 10-11 M, and the linear region is in the range of 10-3 M ~ 10-11 M. We found that the tyrosinase conversion method is better than the CPBA surface modification method. Neverthless, both methods can be used for dopamine sensing application. We successfully fabricated the low-cost dopamine biosensor array by batch production using the ultrasonic atomizing for spraying the large–area γ-APTES +NPs membrane with good uniformity.
Araújo, David Jefferson Cardoso. "Production of cellulose-based bioplastics from agroindustrial residues." Doctoral thesis, 2020. http://hdl.handle.net/1822/76361.
Full textO desenvolvimento de plásticos biodegradáveis e de base biológica desempenham um papel fundamental na transição para uma economia circular, nomeadamente em aplicações de caso único, como embalagens. Esta tipologia de materiais basia-se no uso de matérias-primas renováveis, na possibilidade de reciclagem orgânica e na economia de recursos por reprocessamento. A biomassa lignocelulósica destaca-se como uma fonte promissora de biopolímeros naturais, sendo os resíduos agroindustriais uma fonte atraente devido à sua disponibilidade, baixo custo e alto teor de celulose. Paralelamente, é igualmente importante que os produtos emergentes de base biológica acompanhem as tendências do mercado, nomeadamente no uso de técnicas de processamento ecológicas e no desenvolvimento de materiais com propriedades ativas. No presente trabalho pretendeu-se desenvolver bioplásticos de base celulósica a partir de resíduos agroindustriais. Estes foram identificados com base num diagnóstico e na implementação de um modelo linear, tendo siso selecionado o caroço do milho como matéria prima a estudar. Um pretratamento combinado de dois estágios (tratamento hhidrtérmico seguido da reação com solução diluída de hidróxido de sódio) foi realizado para extrair a sua fração celulósica. A celulose extraída foi utilizada para produção de acetato de celulose atavés de uma técnica acetilação sem a presença de um meio solvente para dissolução. Na síntese do acetato de celulose obteve-se um grau de substituição de 2,68 e um rendimento de 60%. O acetato de celulose produzido apresentou ainda características adequadas para a preparação de filmes com características mecanicas significativas. Avaliação do ciclo de vida foi realizada para contabilizar os impactos ambientais associados à aplicação conjunta das ténicas de pré-tratamento e acetilação. A análise de ciclo de vida mostrou que as técnicas utilizadas repercutiram em impactos ambientais menos significativos que os gerados por abordagens convencionais. Um bionanocompósito foi produzido através da dissolução do acetato de celulose sinterizado em uma suspensão coloidal contendo nanopartículas de dióxido de titânio e óxido de magnesio, obtida a partir da ablação a laserdos metais percussores em diclorometano. A técnica utilizada possibilitou a produção de filmes bioplásticos sem o uso de qualquer outro reagente químico ou geração de subprodutos.
Bio-based and biodegradable plastics play a key role towards the successful transition to a circular economy, namely regarding the application of single-use products, such as packaging. The benefits brought by this class of materials rest on the use of renewable resources of raw-materials, organic recycling and resource-saving by reprocessing. Lignocellulosic biomass stands out as a promising source of natural biopolymers, being the agroindustrial residues are especially attractive alternative due to their availability, low-cost and high cellulose content. On top of that, it is likewise important that the emerged bio-based products keep up with the latest trends on the market, which are focused on the use of eco-friendly processing techniques and development of active materials. In this regard, the present thesis is intended to develop cellulose-based bioplastics from agroindustrial residues. Potential agroindustrial residues were identified based on a diagnosis study and on the implementation of a linear model, from which corncob was selected as the raw material to be studied. A combined two-stage liquid hot water/dilute-NaOH pretreatment was carried out to extract its cellulose content. Furthermore, cellulose acetate (CA), a recognized biodegradable polymer, was synthesized from the extracted cellulose by a solvent-free method using iodine as catalyst. The cellulose acetate synthesis resulted in substitution degree of 2.68 and yield of 60%. The synthesized CA was suitable to produce films with remarkable mechanical properties. A life cycle assessment (LCA) was modeled in order to count the environmental impacts resulting from the joint application of pretreatment/acetylation techniques. The LCA showed that, in response to the less consumption of chemicals and high yield of acetylation, the proposed techniques have environmental impacts less significant than those of conventional approaches. A bionanocomposite was produced via the direct dissolution of the synthesized CA in a colloidal suspension containing titanium dioxide and magnesium oxide, the latter obtained through the laser ablation of bare metal targets in an appropriate solvent. The processing technique used allowed the production of bioplastic films without the use of any other chemical reagent or generation of byproducts.
CNPq (Conselho Nacional de Desenvolvimento Científico e Tecnológico) e ao governo do Brasil pelo suporte financeiro no consentimento da bolsa 201940/2015-9. Obrigada à FCT (Fundação para a Ciência e Tecnologia) pelo apoio financeiro no âmbito dos projetos TSSiPRO (technologies for sustainable and smart innovative products-norte-01-0145-FEDER-000015) e UID/CTM/50025/2019 (UID/EEA/04436/2019 e NORTE-01-0145-FEDER-000018-HAMaBICo).