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The effect of hydrolysis on chemical and physical properties of PAN hydrogels
Binar, Radim ; Kupka, Vojtěch (referee) ; Vojtová, Lucy (advisor)
Předložená diplomová práce se zabývá přípravou hydrogelů odvozených od polyakrylonitrilu a charakterizací jejich fyzikálních a chemických vlastností. Teoretická část shrnuje základní poznatky z oblasti hydrogelů, a také o polyakrylonitrilu. Dále se zabývá možností zpracování polyakrylonitrilu do reaktivní formy, takzvaného aquagelu a jeho zásadité hydrolýzy za účelem přípravy multi-blokových kopolymerů schopných tvořit 3D síť (gel). Experimentální část prezentuje výsledky charakterizace hydrogelů z polyakrylonitrilu neboli HYPANů, které byly připraveny bazicky katalyzovanou hydrolýzou aquagelu. Aquagel byl připraven rozpuštěním a následnou extruzí polyakrylonitrilu. Vzniklé vlákno bylo zpracováno do formy pelet, které byly dále užity pro zmiňovanou hydrolýzu. Hydrolýza byla prováděna za různých podmínek (teplota, NaOH koncentrace, reakční čas) za účelem přípravy produktů s různým stupněm konverze -CN skupiny. Hydrolýzou vytvořené hydrofóbní a hydrofilní bloky, mohou zformovat 3D síť o různých vlastnostech, závisejících na poměru mezi počtem a délkou bloků. Z hydrolyzátů byly připraveny hydrogely jejichž visko-elastické a optické vlastnosti byly dále charakterizovány. Optimalizací přípravy bylo dozaženo multi-blokového kopolymeru schopného vytvořit gel s vhodnými fyzikálními vlastnostmi. Tento gel může najít uplatnění v medicíně, například jako implantáty v oftamologii.
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Study of bulk and hydration water in hydrogel systems suitable for medical applications
Řihák, Marek ; Sovová, Šárka (referee) ; Enev, Vojtěch (advisor)
This bachelor thesis focuses on a preparation of hydrogel systems based on hyaluronan and Septonex and on a design and optimalization of quantitative analysis of hyaluronan and Septonex in a supernatant after gelation. This work compares hydrogels formed from hyaluronan of two different molecular weights. The calibration curves of hyaluronan and Septonex were used to evaluate the experimental data. The thermogravimetric analysis and Fourier-transform infrared spectroscopy were used for the characterization of properties of the samples. The utilisation of the mentioned techniques to study molecular water subpopulations was discussed according to the obtained results.
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Material characterization of novel hydrogels containing humic substances intended for pharmaceutical and cosmetic applications
Pavlicová, Renata ; Weidlich, Tomáš (referee) ; Sedláček, Petr (advisor)
This thesis is focused on the development and characterization of hydrogels containing humic substances with possible use in cosmetic and pharmaceutical industries. This work follows on the bachelor thesis, theoretical and experimental part is based on already acquired knowledge. The aim of this work was to develop a literature review focusing on the potential use humic gels in practice and also to enhance the consistency of other active ingredients. Based on this literature review, the main aim was to prepare model humic hydrogels with selected active ingredients and their characterization by basic methods of material analysis. These basic methods were especially rheology and visual assessment of consistency during the preparation, then the samples were subjected process of drying and swelling. Experimental results showed considerable influences during the preparation and composition of each sample, which then reflected in their structure and consistency. Furthermore, it was found that the suitable composition and combination of ingredients form hydrogels acceptable characteristics for further use in cosmetic or pharmaceutical applications.
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Study on adhesion properties of hydrogels to solid surfaces
Šindelářová, Anna ; Sedláček, Petr (referee) ; Smilek, Jiří (advisor)
This bachelors thesis deals with optimization and subsequent verification of the applicability of an unconventional method for determination of adhesion properties of hydrogels and materials related to them, which will then be useful for measuring the adhesion of hydrogels to solid surfaces using rheological techniques. In the case of the presented thesis, the determination of adhesion properties by means of rheometer and simple experiments such as slipping of measured materials on inclined surface is chosen. The results of both of these methods are compared to each other and also to the knowledge gained from literature. The applicability of the methods is assessed in terms of objective results, reproducibility, and whether the measured data are quantitative expressions of adhesion properties. It has been found that rheometry is useful as a reliable quantitative method of measuring adhesion. The rheometric data was reproducible and consistent. By this method, it was found that, with increasing concentration of dispersion, the adhesion force increases, which is in agreement with the knowledge obtained from literature.
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Rheology of humic gel
Smilek, Jiří ; Gregorová, Eva (referee) ; Klučáková, Martina (advisor)
The main aim of the bachelor thesis was to test several modifications of humic hydrogels’ preparation method and to discuss their effects on mainly viscoelastic properties of resulting materials. Main conditions, tested in the experimental part, were presence of acidic impurities from the gelation step in the gel and an addition of cations with a higher valence during or after the preparation step. The most important evaluated parameters of the materials were inner pH, solid content and mainly basic viscoelastic characteristics.
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Study on relaxation properties of hydrogels by using rheometer
Obrusníková, Klára ; Heger, Richard (referee) ; Smilek, Jiří (advisor)
This thesis deals with viscoelastic (specifically relaxation) properties of a selected hydrogel system using three interval thixotropy tests. Collagen hydrogel was chosen as the investigated material and its viscoelastic properties were studied based on time and different storage temperatures. The collagen gel is thixotropic; its structure is disrupted when subjected to deformation and it is able to reform (relax) to a certain rate afterwards. As for time dependency, the collagen hydrogel shows great stability, there were almost no changes in mechanical properties over two months. The temperature dependency is, however, quite significant. When subjected to temperatures below the freezing point, the structure of collagen stabilises, which is expressed by an increase of the complex modulus, when subjected to temperatures close to the human body temperature, the structure degrades, which is expressed by a decrease of the complex modulus. The results show that the collagen gel relaxes best when kept at room temperature, but it simultaneously exhibits the lowest elasticity. On the contrary, when kept at the temperature around 5 °C, the gel exhibits the highest elasticity and relaxes the worst. The optimal temperature for the storage of the given gel seems to be around 5 °C, according to the results.
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Advanced microrheological techniques in the research of hydrogels
Kábrtová, Petra ; Smilek, Jiří (referee) ; Mravec, Filip (advisor)
This diploma thesis deals with the use of fluorescence correlation spectroscopy technique for microrheological characterization of hydrogel in a system of hyaluronate-cetyltrimethylammonium bromide. Fluorescently labelled particles were used for microrheological FCS analysis. To optimize the method the most appropriate size of particles was chosen on the basis of Newtonian glycerol solutions analysis. Among other things, the discussion was focused on the influence of refractive index change of analysed solutions on analysis results. After hyaluronate solutions analysis it was possible to assess the biopolymer concentration and molecular weight impact on the FCS microrheology results, which could then be compared with analysis results of model hydrogels of hyaluronate and CTAB. Finally, usability and limitations of FCS microrheology have been discussed.
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Influence of Solvent on Deformation Behavior of Hydrogels
Kulovaná, Eva ; Bartlová, Milada (referee) ; Mráček, Aleš (referee) ; Žídek, Jan (advisor)
The thesis deals with molecular dynamic simulation of the influence of water on the deformation of hydrogels. Hydrogels are model materials formed from macromolecular networks solvated with water. It was found that water can form bridges between macromolecules that take the form of temporary ionic crosslinks. These bridges affect the behavior of the network during deformation. Water bridges are water molecules that have a limited radius of motion in the space between two macromolecules. The concentration of the water bridges was regulated by a partial charge on the macromolecular chain in the organic network. Bridges are a type of interaction that is relatively strong but significantly delocalized. It is not possible to dissociate the water bridge, after dissociation it will be re-created in another place in a short time. The influence of water bridges was compared with other types of network crosslinks, especially covalent and physical bonds. Covalent crosslinks are modeled as a simple binding interaction between two macromolecules. They are undissociable and are local throughout the simulation. Physical bonds are modeled as micelles, where hydrophobic groups form the core and hydrophilic groups form the micelle shell. Physical bonds have the nature of dissociable bonds that are local. Different types of crosslinks have different effects on deformation properties. The deformation of a network containing a combination of two types of crosslinks was simulated: (i) physically-covalent, (ii) ionically-covalent, and (iii) physically-ionic networks and (iv) ternary physically-covalent-ion networks. For individual and combined networks, the behavior depending on simple networks was verified. The number of water bridges was fundamentally affected by the primary structure of the chains. When the PEG chain was replaced with hydrophobic polyoxymethylene (POM) or polyoxytrimethylene (POTM), their solvation and mechanical behavior deteriorated.
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Gelation of hydrophobized hyaluronan
Gruberová, Eliška ; Venerová, Tereza (referee) ; Pekař, Miloslav (advisor)
This diploma thesis deals with hyaluronan modified by palmitoyl and its gelation. Gels were created from palmitoyl hyaluronan with molecular weight 216 kDa and degree of substitution 11 % in concentrations 15 and 20 g dm-3 in water and concentrations 10, 15, 20 g dm-3 in NaCl and TSB. Also gel from palmitoyl hyaluronan with molecular weight 35 kDa and degree of substitution 10 % in concentrations 20, 30 g dm-3 in NaCl was created. Gels were investigated concerning medical applications. Gels were rigid and had very good properties, which was confirmed by rheology. The physical properties (pH, water content) of gels and stability were investigated. On the grounds of the MTT test, three methods of cell incorporation were suggested. Gels are nontoxic, biocompatible, and biodegradable with nontoxic degradation products and that is why they are excellent aspirants for use in biomedicine.
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Optimization of condition of procedure of gelation hydroxyethylcellulose using citric acid
Burešová, Natálie ; Krouská, Jitka (referee) ; Hurčíková, Andrea (advisor)
The bachelor thesis dealt with hydrogels, which have the advantage detention large quantities of water, it allows large potential applications, such as in medicine. Hyaluronan and hydroxyethylcellulose were the reactants of crosslinking reaction. Citric acid was crosslinking agent which is nontoxic and inexpensive. Hydroxyethylcellulose and hyaluronan for crosslinking reaction were selected on the finding from available publications. The resulting gels can be used mainly in medicine because they are nontoxic. The main aim of the thesis was optimalizacion process of gelation and hydroxyethylcellulose and finding a suitable gelation process. Selected gelation procedure is applied to a mixture of hydroxyethyl cellulose and hyaluronan in two different weight ratios and hyaluronan. Chemicaly cross-linked were considered samples, which contained hydroxyethylcellulose and then a mixture of hyaluronate and hydroxyethyl cellulose in a weight ratio of 3:7.
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