Studium bariérových a transportních vlastností vybraných polyelektrolytů v hydrogelových matricích pomocí difúzních technik / Study of barrier and transport properties of polyelectrolytes using diffusion techniques in hydrogels

Valentová, Kristýna

January 2017

This diploma thesis was focused on study of barrier and transport properties of selected polyelectrolytes in hydrogel matrices by using diffusion techniques. The study of these properties was performed in horizontal diffusion cells where is observed the change in diffusion probe concentration over time. Diffusion experiments were performed on an agarose hydrogel with the addition of alginate, hyaluronic acid, polystyrene sulfonate, humic acids and as a model probe rhodamine 6G was used. Important parts of this thesis are also the methods which characterize the substances and hydrogel matrices such as rheology and potentiometric titration. The main aim of this diploma thesis was to investigate the effect of interactions between passing model dye (rhodamine 6G) and the appropriate gel (agarose + polyelectrolyte) on the fundamental diffusion parameters (effective diffusion coefficient, lag time, etc.).

Coatings with Inversely Switching Behavior. New Applications of Core-Shell Hydrogel Particles.

Horecha, Marta

03 February 2011

The main goal of this work is design and synthesis of novel composite hydrogel-based core-shell microparticles and their application for fabrication of coatings, which provide the “inverse-switching” behaviour to the surface, namely, to become more hydrophobic in water environment. Since contact angle of heterogeneous surfaces is dependent on the nature and ratio of surface components, an increase of amount of more hydrophobic component on the surface will cause the reducing of surface wettability. It was suggested that core-shell particles having water-swellable hydrogel core and hydrophobic, but permeable for water shell when deposited on the hydrophilic substrate should increase the total amount of hydrophobic component on the surface when the cores of particles will swell in water. During the work different approaches to obtain freely dispersed and surface-immobilized core-shell particles with required structure were developed. Obtained particles were applied for preparation of coatings with ability to display “inverse-switching” behaviour. It was demonstrated that properly designed and properly prepared core-shell particles could be successfully used for creation of smart adaptive coatings having the ability to alter the surface properties upon changing of the environment.

info:eu-repo/classification/ddc/540

ddc:540

Beiträge zur Entwicklung Wasser speichernder Materialien auf Basis von Stärke und Lignin

Passauer, Lars

07 July 2008

Vor dem Hintergrund des weltweit wachsenden Bedarfes an Bodenverbesserungsmitteln, durch die Humus-, Nährstoff- und Wassermangel auf Problemstandorten kompensiert werden sollen, war es das Ziel der vorliegenden Arbeit, Bodenwasser-speicher auf Basis der nachwachsenden Biopolymere Stärke und Lignin zu entwickeln. Durch Derivatisierung der Stärke wurde deren Hydrophilie deutlich gesteigert, was Voraussetzung für die Bildung von Hydrogelen war. Es konnte gezeigt werden, dass durch Vernetzung der wasserlöslichen Stärkederivate Carboxymethylstärke und Monostärkemonophosphat mit Di-/Tricarbonsäuren quellfähige Hydrogele erzeugt werden, deren Quellungsvermögen und rheologische Eigenschaften über die Wahl des Vernetzers und die Vernetzerstoffmenge gezielt eingestellt werden können. Die Modifizierung von Lignin wurde durch Oxidation mit Wasserstoffperoxid, z.T. in Kombination mit Fe(II)- bzw. Mn(II)-Chloriden realisiert. Dadurch wurde die Vernetzbarkeit von Lignin deutlich verbessert, was auf oxidativ bedingte Strukturänderungen des Lignins zurückzuführen war. Diese bestanden im Wesentlichen in der Spaltung und Oxidation der Lignin-Seitenkette sowie der Hydroxylierung der Seitenkette und aromatischer Strukturen. Die Vernetzung von Lignin mit Poly-(ethylenglycol)-diglycidylether ergab quellfähige Hydrogele, deren Wasseraufnahmevermögen und rheologische Materialfunktionen von der eingesetzten Vernetzerstoffmenge abhängig sind. Es konnte gezeigt werden, dass durch den Einsatz von Stärkephosphat- und Lignin-Hydrogelen das Wasserspeichervermögen erhöht und die Evaporationsraten eines entsprechend behandelten Sandbodens verringert werden. Im Wachstumsversuch wurden die Frischmasseerträge von Gelbsenf (Sinapis alba) durch Behandlung eines Sandbodens mit Hydrogelen gesteigert. / Soil degradation leading to a lack of humus, nutrients and water especially on exploited sites causes the worldwide need in soil amendments. Aim of the work was the development of hydrogels from renewable biopolymers starch and lignin improving water retention especially in degraded soils. A significant increase of hydrophilic properties of starch was obtained by chemical modification with the objective of forming starch based hydrogels. Swellable hydrogels were formed by cross-linking of water soluble starch derivatives like carboxymethyl starch and monostarch monophosphates with di- and tricarboxylic acids. Swelling capacity and rheological properties of the starch gels were selective adjusted by variation of cross linking agent and whose amounts. Modification of lignin was realized by oxidation with hydrogen peroxide partly in combination with ferrous and manganese chlorides, respectively. In consequence of oxidative structural changes which were cleavage and oxidation of side chain as well as aliphatic and aromatic hydroxylation, gelation of lignin was improved significant. Lignin hydrogels with different swelling capacities and rheological functions were formed by cross-linking lignin with different amounts of poly (ethylene glycol) diglycidyl ether. Application of hydrogels based on starch and lignin causes increased water storing capacity/field capacity and decreased evaporation of a sandy soil as well as an increased biomass yield of yellow mustard (Sinapis alba).

info:eu-repo/classification/ddc/630

ddc:630

Organicko-anorganické polymery - syntéza a charakterizace hybridních polymerů a nanokompozitů / Organic-inorganic polymers - synthesis and characterization of hybrid polymers and nanocomposites

Depa, Katarzyna

January 2017

In the first part of this work, silica nanoparticles and alternative or additional filler phases were incorporated into hydrogels based on the temperature-sensitive poly(N- isopropylacrylamide) (PNIPAm). Nano-SiO2-filled porous PNIPAm hydrogels with an enhanced force response (up to 100 g) to temperature stimuli were obtained by increasing several times the pore wall thickness, which was achieved via reducing the solvent (porogen) content during the gels' cryo-synthesis. A similar optimization of the force response was also carried out for analogous gels reinforced by nano-TiO2, in which the reinforcing effect of the filler is weaker. Partial intercalation of amylopectin starch into divinyl-crosslinked bulk as well as porous PNIPAm gels several times improved their extensibility. In case of starch-rich bulk gels, a very fast and extensive one-way deswelling in response to increased temperature was achieved (re-swelling upon cooling is much slower), which is attributed to specific properties of the starch-PNIPAm interface. In doubly-filled bulk PNIPAm/nano-SiO2/starch gels, a very strong synergic reinforcing effect of both fillers is observed, due to specific hydrogen bridging between the three phases. Highly porous cryogels based on PNIPAm/nano- SiO2/starch displayed a highly improved extensibility...

Active hydrogel composite membranes for the analysis of cell size distributions

Ehrenhofer, Adrian, Wallmersperger, Thomas

26 March 2021

Active membranes with switchable pores that are based on hydrogels can be used to measure the cell size distribution in blood samples. The system investigated in the present research is based on a polyethylene terephthalate (PET) membrane that is surface polymerized with poly (N-isopropyl acrylamide) (PNiPAAm) to form active pores of arbitrary geometry. The PET membrane provides the functionality of a backbone for mechanical rigidity, while the soft PNiPAAm hydrogel forms the active pores. Modeling and simulation of the active hydrogel behavior proved to adequately predict the opening and closing of the pores under application of an activating stimulus, e.g. temperature. The applied model is called Temperature-Expansion-Model and uses the analogy of thermal expansion to model the volume swelling of hydrogels. The Normalized Extended Temperature-Expansion-Model can englobe arbitrary hydrogels and large geometric displacements. Studies of pore opening - performed by using commercial finite element tools - show good agreement of the experimentally measured shape change of active pores. Based on these studies, the particulate fluid flow through the switchable pores is analyzed. Through application of a membrane process, i.e. a given variation of applied pressure and switching stimulus for the hydrogel, the size profile of the blocking particles can be measured directly using the flux difference under constant pressure. This allows the measurement of the cell size distribution in blood samples, e.g. to detect circulating tumor cells or anomalies in the distribution that hint to anemia.

info:eu-repo/classification/ddc/620

ddc:620

Window-opener as an example for environment measurement and combined actuation of smart hydrogels

Ehrenhofer, Adrian, Elstner, Martin, Filippatos, Angelos, Gude, Maik, Wallmersperger, Thomas

03 May 2021

An environment is defined by a set of field values, such as temperature, electro-magnetic field, light intensity, air humidity and air composition. Smart materials, such as hydrogels, are able to react to these kinds of stimuli. The spatial and time development of environmental values is governed by transport equations. Hence the reaction, i.e. actuation or sensing, of the smart material can be described based on the same assumptions. The displacement, here swelling and deswelling, of the material depends on the combination of the environmental parameters. Smart materials are called multi-sensitive, when more than one parameter is purposely used (i) to manipulate the material, i.e. as an actuator or (ii) to measure the quantities, i.e. as a (multi-)sensor. However, the material can also perform (iii) the objective of a logic processing unit in addition to (i) and (ii). In the current work, we present a device that realizes this concept: An automatic window opener that senses environmental parameters (light-level and air temperature) and reacts accordingly. The hydrogel material that is included in the simplistic device simultaneously acts as sensor, logic processing unit and actuator.

info:eu-repo/classification/ddc/620

ddc:620

Hydrogels for engineering

Ehrenhofer, Adrian, Wallmersperger, Thomas

09 August 2019

In engineering, materials are chosen from databases: Engineers orient on specific parameters such as Young's modulus, yield stress or thermal expansion coefficients for a desired application. For hydrogels, the choice of materials is rather tedious since no generalized material parameters are currently available to quantify the swelling behavior. The normalization of swelling, which we present in the current work, allows an easy comparison of different hydrogel materials. Thus, for a specific application like a sensor or an actuator, an adequate material can be chosen. In the current work, we present the process of normalization and provide a course of action for the data analysis. Special challenges for hydrogels like hysteresis, conditional multi-sensitivity and anisotropic swelling are addressed. Then, the Temperature Expansion Model is shortly described and applied. Using the derived normalized swelling curves, a nonlinear expansion coefficient β(F) is derived. The derived material behavior is used in an analytical model to predict the bending behavior of a beam made of thermo-responsive hydrogel material under an anisotropic temperature load. A bending behavior of the beam can be observed and the impact of other geometry and material parameters can be investigated. To overcome the limitations of the one-dimensional beam theory, the material behavior and geometry can be implemented in Finite Element analysis tools. Thus, novel applications for hydrogels in various fields can be envisioned, designed and tested. This can lead to a wider use of smart materials in sensor or actuator devices even by engineers without chemical background.

info:eu-repo/classification/ddc/620

ddc:620

Injectable hydrogels for innovative clinical applications / Hydrogels injectables pour applications cliniques innovants

Alonci, Giuseppe

12 December 2018

Cette thèse porte sur la conception d'hydrogels injectables pouvant être utilisés en chirurgie mini-invasive, par exemple en dissection endoscopique sous-muqueuse (ESD) ou en réparation de hernie.Les polyamidoamines (PAAm) constituent une classe d'hydrogel intéressante à ces fins. Après avoir étudié les différents facteurs qui affectent leurs propriétés, nous montrons qu'il est également possible d'obtenir des microgels à base de PAAm pour la délivrance de médicaments ou l'encapsulation de cellules. Il est possible de synthétiser des PAAm dégradables qui peuvent être injectés dans la sous-muqueuse de l'estomac pour la ESD.Nous avons montré que les hydrogels hybrides alginate / PAAm peuvent être utilisés pour le traitement percutané de la hernie inguinale directe et des crèmes à base d'hydrogel ont été préparées pour être utilisées pour le colmatage des fistules. Le dernier chapitre de la thèse est consacré à la réticulation de l'acide hyaluronique pour la chirurgie esthétique. / This thesis deals with the design of injectable hydrogels that can be used in minimally invasive surgery, such as endoscopic submucosal dissection (ESD), percutaneous hernia repair or fistulas closure.Polyamidoamines (PAAm) constitute a class of hydrogel of special interest for these purposes. After studying the different factors that affect their properties, we show that it is also possible to obtain PAAM-based microgels for applications in drug delivery or cell encapsulation.It is possible to synthesize redox-responsive nanocomposite degradable PAAm that can be injected into the submucosa of the stomach to facilitate the ESD.We show that hybrid alginate/PAAm hydrogels can be used for the percutaneous treatment of direct inguinal hernia and hydrogel-based creams have been prepared for use in fistulas closure. The last chapter of the thesis is devoted to the development of a new crosslinking strategy for hyaluronic acid in cosmetic surgery.

Hydrogels

Endoscopique sous-muqueuse

Chirurgie

Biocompatibilité

Polyamidoamines

Ingénierie tissulaire

Injectables

Biomatériaux

Hydrogel

ESD

Surgery

Biocompatibility

Poly(amidoamine)s

Tissue engineering

Injectable

Biomaterials

541.34

Microfluidic Systems based on Chemical Volume-Phase-Transition Stimuli-Responsive Hydrogels

Pini, Cesare

19 January 2019

Microfluidics is an expanding research field that lies at the interface of engineering, physics, chemistry and biology and offers promises in the development in a wide range of applications from point-of-care (POC) diagnostics to regenerative medicine, from drug testing to DNA sequencing. The number of publications in the field has been steadily growing in the last two decades and the trend does not show any sign of slowing down. On top of that, the market value generated by microfluidics is expected to quadruple in the time spam from 2013 to 2023: from 1.59 billion dollars in 2013, it is expected to grow to 8.64 billion dollars in 2023. There are however a series of limitations which prevent the full development of microfluidic technology. As it has already been pointed out in many publications in the last decade, the lack of a killer application capable of really making the difference out of the research labs and the academic playgrounds around the world is an impeding factor to the full-scale development of microfluidcs at an industrial level, also due to the lack of industrial standards. A number of authors, though, are of the opinion that the actual concept itself needs to challanged and that a complete re-thinking of the current technological platform should be done in order to make the breakthrough advance allowing a long-standing promising field to finally realise itself.In this work a completely new concept, based on volume-phase-transition smart-hydrogels, is presented and the foundations for a transistor-like technological platform are laid. A strong focus is therefore based on the basic element itself, i.e. volume-phase-transition smart-hydrogels, and on the possible ways that it might be integrated in microfluidic systems. Furthermore, basic circuits that lay the foundations for a logic system are presented together with other applications that replicate some elementary functions in microelectronics, such as oscillators. Finally, integration of logic gates as well as basic circuits is presented, in order to lay the foundations for chemical integrated microfluidic circuits.

info:eu-repo/classification/ddc/620

ddc:620

info:eu-repo/classification/ddc/530

ddc:530

Modellierung und Simulation des Verhaltens von durchströmten schaltbaren Membranen

Ehrenhofer, Adrian

25 April 2019

Die schaltbare Filtration mithilfe von Hydrogel'=Verbundmembranen zeigt großes Potential zur Lösung einer der grundlegenden Aufgaben in der Humanmedizin: der unkomplizierten und schnellen Analyse von Blutproben zur Erkennung von Unregelmäßigkeiten, wie zum Beispiel zirkulierenden Tumorzellen. In der vorliegenden Arbeit wird ein solches System diskutiert und mithilfe von Methoden des Maschinenwesens -- Modellierung und Simulation -- untersucht. Das betrachtete System besteht aus einer aktiven Hydrogelschicht, welche auf einer passiven Polymerschicht aufgebracht ist und damit eine schaltbare Verbundmembran bildet. Die Arbeit folgt zwei Hauptpfaden: Im festkörpermechanischen Teil werden die mechanischen Aspekte von Verbundmembranen dargestellt, während im fluidmechanischen Teil die Permittivität und Selektivität von Membranen näher beleuchtet werden. Im Folgenden werden Modelle zur Schaltbarkeit ausgehend von aus der Literatur bekannten Ansätzen entwickelt. Diese werden dann im Rahmen von Simulationen -- sowohl im kommerziellen Finite-Elemente-Programm Abaqus, als auch in selbst geschriebenen Matlab-Codes -- umgesetzt. Die vorliegende Arbeit zeigt, dass ein schaltbares System zur Analyse von Zellgrößenprofilen realisierbar und durch Modellierung und Simulation in einem Maß beschreibbar ist, sodass der experimentellen Realisierung nichts mehr im Wege steht. / Switchable filtration with hydrogel composite membranes shows great potential to solve one of the basic challenges in life sciences: the fast and easy analysis of blood samples to detect abnormal cells like e.g. circulating tumor cells. In the present work, a system providing these features is discussed using tools provided by engineering: modeling and simulation. The system consists of an active hydrogel composite membrane in combination with a passive polymeric membrane that provides mechanical stability. This forms a switchable composite membrane. The work follows two main paths: In the solid mechanics path, the composition of membranes and their mechanical aspects are discussed. The fluid mechanics path focuses on permittivity and selectivity for particle flows. Originating from the basic concepts of membrane permeation in literature, models for switchability are developed and simulations -- both in the commercial finite-element tool Abaqus and in Matlab scripts -- are performed. The present work proves that the concept of cell-size detection with switchable membranes is suitable for the task. Through the performed simulations, the corresponding processes can be described and designed so that the microfluidic analysis system can be experimentally realized.

info:eu-repo/classification/ddc/620

ddc:620