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1	Adsorptionsschichten an fluiden Grenzflächen : Skalengesetze und Ionenverteilungen Teppner, Randolf January 2000 (has links) In dieser Arbeit wurden zwei Themenbereiche bearbeitet: <br /> 1. Ellipsometrie an Adsorpionsschichten niedermolekularer Tenside an der Wasser/Luft-Grenzfläche (Ellipsometrie ist geeignet, adsorbierte Mengen von nicht- und zwitterionischen Tensiden zu messen, bei ionischen werden zusätzlich die Gegenionen mit erfaßt; Ellipsometrie mißt sich ändernde Gegenionenverteilung).<br /> 2. Ellipsometrische Untersuchung von endadsorbierten Polymerbürsten an der Wasser/Öl-Grenzfläche (Ellipsometrie ist nicht in der Lage, verschiedene Segmentkonzentrationsprofile innerhalb der Bürste aufzulösen, ist aber sehr wohl geeignet, Skalengesetze für Dicken und Drücke in Abhängigkeit von Ankerdichte und Kettenlänge der Polymere zu überprüfen; für in Heptan gequollene Poly-isobuten-Bürsten konnte gezeigt werden, daß sie sich entsprechend den theoretischen Vorhersagen für Bürsten in einem theta-Lösungsmittel verhalten) / In this publication two subjects are dealt with:<br /> 1. Ellipsometry on adsorption layers of low molecular weight surfactants at the air/water-interface (Ellipsometry is suitable to measure adsorbed amounts of non-ionic surfactants, whereas this is impossible for ionic surfactants; in the latter case the ellipsometric signal is strongly influenced by the counter ion distribution; ellipsometry can measure changes in the counter ion distribution)<br /> 2. Ellipsometric investigation of polymer brushes anchored to the oil/water-interface (Ellipsometry is not able to distinguish between different segmental concentration profiles within the brush, but it is nevertheless suitable to check scaling laws for brush height and pressure in dependence on anchor density and degree of polymerization of the polymers; it could be shown, that brushes of poly-isobutylene swollen in heptane behave as predicted for brushes in a theta-solvent) XXX Physics
2	Immobilization of Inorganic Nanoparticles on Responsive Polymer Brushes Gupta, Smrati 22 September 2008 (has links) (PDF) Exploitation of well defined responsive polymer brushes for direct and controlled immobilization of metal/semiconductor nanoparticles on macroscopic surfaces has been demonstrated. The employed approach offers the possibility of the organization of a variety of inorganic nanoparticles by irreversible bonding and homogenous distribution on an underlying substrate. The immobilization process has been realized by chemical grafting of a variety of polymer brushes on a suitable substrate followed by the attachment of pre-/in-situ formed nanoparticles exploiting the chemical/physical interactions between surface functionalities of nanoparticles and polymer chain segments. A number of polymer brushes including poly (acrylic acid), polystyrene, poly (2-vinyl pyridine) and poly (N-isopropyl acrylamide) brushes have been prepared on silicon substrate by the “grafting to” approach. A variety of inorganic nanoparticles such as quantum dots (CdTe) noble metals (gold and silver) and magnetic (Fe3O4) were immobilized on macroscopic surfaces to impart them photo luminescent, catalytic or magnetic properties. In addition, responsiveness of grafted polymer brushes in terms of variation in thickness (due to changes in chain conformation) as a function of external stimuli such as solvent and pH allowed to use the resulting polymer brush-nanoparticles nanoassemblies in the fabrication of nanosensors. The design of fabricated nanosensors is based on the modulation in the interparticle distance of immobilized nanoparticles due to swelling/deswelling of underlined polymer brushes in response to some external trigger. Polymer brushes Nanoparticles Immobilization Polymerbürsten Nanopartikel Immobilisierung ddc:540 rvk:VK 8007
3	Design of new responsive materials based on functional polymer brushes Bittrich, Eva 30 November 2010 (has links) (PDF) For the development of smart surfaces high attention is focused on stimuli-responsive polymers. Since type and rate of response to environmental stimuli can be regulated by chain length, composition, architecture and topology, polymer films offer a variety of opportunities to develop such stimuli-responsive surfaces. Here polymer brush surfaces designed for a controlled adsorption of proteins and a switchable activity of immobilized enzymes are presented. The work is focused on temperature as well as pH-sensitive binary brushes, consisting of poly(N-isopropylacrylamide) (PNIPAAm) and poly(acrylic acid) (PAA), and their swelling behavior as well as their protein adsorption affinity is compared to the corresponding homopolymer brushes. All polymer brushes are covalently grafted by ester bonds to an anchoring layer of poly(glycidyl methacrylate), that itself is grafted via ether bonds to a silicon surface. Methodical investigations of layer thickness and refractive index of the brushes in the swollen state and after protein adsorption are carried out with in-situ spectroscopic ellipsometry, varying the brush composition and the solution parameters pH, salt concentration and temperature. The ellipsometric findings are correlated to results of contact angle, atomic force microscopy and zeta-potential measurements as well as colorimetric assays of enzyme activities at the brush surface. Furthermore the swelling of PNIPAAm brushes and protein adsorption at PAA Guiselin brushes are investigated in more detail with attenuated total reflexion Fourier-transform infrared spectroscopy and quartz crystal microbalance with dissipation, respectively. Ellipsometrie Polymerbürsten Proteinadsorption Quellung ellipsometry polymer brush protein adsorption swelling ddc:570 rvk:WD 5100
4	Functionalization of two-dimensional materials with polymer brushes Sheng, Wenbo 07 February 2020 (has links) Polymer brushes can be used to tailor the physical and chemical properties of materials on demand to meet potential applications. Therefore, fabrication of polymer brushes with well-defined structure and functional groups enables the engineering of new materials with diverse functions. In addition, two-dimensional (2D) materials have their unique physical/chemical properties and potential applications in (opt)electronics, catalysis, energy storage, sensing, and other related fields. However, the dispersibility, chemical stability, charge transport behavior, mechanical properties of the 2D materials hinder their further applications. Therefore, combining polymer brushes and 2D materials may bring in new properties which are not available by either of them alone. This thesis focuses on brushing up 2D materials (from inorganic to organic) with universal photografting techniques. (1) The first chapter introduces the outline and research content of the thesis. (2) The second chapter describes the background of 2D materials and polymer brushes. In particular, this chapter analyzes mechanisms, drawbacks and benefits of different polymerization methods, and also summarizes the general approaches to grow polymer brushes on 2D material surfaces, coupling with potential applications of polymer functionalized 2D materials. (3) The third chapter shows the motivation and aim of this thesis. (4) The fourth chapter discusses the results of the functionalization of hexagonal boron nitride (hBN), MoS2, graphitic-carbon nitride (gCN), alkyl-polydopamine (alkyl-PDA), and conjugated 2D polymers (2DPs) with polymer brushes by the same self-initiated photografting and photopolymerization (SIPGP) method and their related applications in detail, respectively. First, the direct photopolymerization of vinyl monomers results in the formation of thick and homogeneous polymer brushes covalently bounded to hBN. The brush layer mechanically and chemically stabilizes the material and allows facile handling as well as long-term use in water splitting hydrogen evolution reactions. Second, the chapter demonstrates the MoS2 can be directly modified with polymer brushes by SIPGP. After modifying MoS2 with polymer brushes, the dispersibility of polymer brushes-modified MoS2 was obviously improved. Third, the polymer brushes functionalized gCN significantly improves the dispersibility. Application of polymer brush functionalized gCN as excellent recyclable substrates for an outstanding SERS as well as photocatalytic degradation of dyes is demonstrated. Fourth, to directly obtain the 2D materials with functional groups, the chapter proposes a facile method to prepare amphiphilic polymeric Janus nanosheets with hydrophilic PDA and hydrophobic alkyl chains at both sides. Benefiting from the Janus property of the alkyl-PDA nanosheets, the nanosheets can be grafted polymer brushes through photografting and be conjugated Fe3O4 nanoparticles selectively onto the PDA side. Finally, the chapter shows that various polymer brushes can be directly grafted onto 2DPs and freestanding system is also obtained. Moreover, it is found that the morphology of freestanding system quickly and reversibly responds to solvent quality by shrinking/stretching. (5) The fifth chapter addresses the general conclusion and future prospective of the whole work. (6) The sixth chapter describes the experiment part of the whole thesis. info:eu-repo/classification/ddc/540 ddc:540
5	Immobilization of Inorganic Nanoparticles on Responsive Polymer Brushes Gupta, Smrati 19 September 2008 (has links) Exploitation of well defined responsive polymer brushes for direct and controlled immobilization of metal/semiconductor nanoparticles on macroscopic surfaces has been demonstrated. The employed approach offers the possibility of the organization of a variety of inorganic nanoparticles by irreversible bonding and homogenous distribution on an underlying substrate. The immobilization process has been realized by chemical grafting of a variety of polymer brushes on a suitable substrate followed by the attachment of pre-/in-situ formed nanoparticles exploiting the chemical/physical interactions between surface functionalities of nanoparticles and polymer chain segments. A number of polymer brushes including poly (acrylic acid), polystyrene, poly (2-vinyl pyridine) and poly (N-isopropyl acrylamide) brushes have been prepared on silicon substrate by the “grafting to” approach. A variety of inorganic nanoparticles such as quantum dots (CdTe) noble metals (gold and silver) and magnetic (Fe3O4) were immobilized on macroscopic surfaces to impart them photo luminescent, catalytic or magnetic properties. In addition, responsiveness of grafted polymer brushes in terms of variation in thickness (due to changes in chain conformation) as a function of external stimuli such as solvent and pH allowed to use the resulting polymer brush-nanoparticles nanoassemblies in the fabrication of nanosensors. The design of fabricated nanosensors is based on the modulation in the interparticle distance of immobilized nanoparticles due to swelling/deswelling of underlined polymer brushes in response to some external trigger. info:eu-repo/classification/ddc/540 ddc:540
6	Biofunctionalization of Polymer Brush Surfaces Psarra, Evmorfia 17 November 2015 (has links) (PDF) Surface engineering of tailored materials with adjustable characteristics in relation to biological environment, is one of the main prerequisites for biotechnological applications. In recent years, advanced surface coatings in the nanometer range have drawn big attention. A special category of this group are stimuli responsive polymers tethered by one functional end to the surface. When the surface grafting density is big enough, the polymer chains are forced to stretch away from the interface due to excluded volume effects, creating a so called polymer brush. Nano-scaled polymer brushes are advantageous due to their nanostructure, which can be comparable to biological species, and their collaborative response to external stimuli. Moreover, the material design parameters such as chemistry, surface topography, charge, and surface wettability can be adjusted by using the appropriate polymer, or a combination of polymers with respect to the desired material performance. In case of binary polymer brushes, the materials' properties are switched between the properties of two constituent polymers. Besides, upon switching of external stimuli, biomodified binary polymer brushes can hide or expose biofunctionalities, on demand. Hence, they are classified as smart biomaterials' surface coatings. Polymerbürsten Biofunktionalisierung nanostrukturierte Oberflächen physikalisch-chemische Analytik polymer brushes biofunctionalization nanostructured surfaces physicochemical analytics ddc:540 rvk:VK 8007
7	Funktionelle Schichten aus Polymerbürsten Schneider, Maximilian 09 December 2016 (has links) (PDF) Die Synthese von oberflächengepfropften Polypeptoidbürsten durch die Oberflächeninitiierte Ringoffnungspolmerisation von N-substituierten N-carboxyanhydriden wird beschrieben. Die entstehenden Schichten werden durch Zelladhäsionsexperimente und Oberflächenplasmonenresonanzspektroskopie auf ihre Antibiofouling-Eigenschaften untersucht. UV-Lithographie und Mikrokontaktdrucken wird zur Herstellung von strukturierten Oberflächen verwendet. Eine Funktionalisierung der Strukturen wird mit Fluoreszenzmikroskopie und Fluoreszenzmapping nachgewiesen. Ein zweiter Schwerpunkt befasst sich mit der Synthese von Kompositschichten. Oberflächengepropfte polykationische Polymerbürsten dienen als Einlagerungsmedium für negativ geladene Nanopartikel. Durch calcinieren werden poröse Schichten erhalten. Die Anwendung des Verfahrens auf ein Partikelsystem generiert poröse Core-Shell-Partikel. Polypeptoide Polymerbürsten SIROP Kompositschichten Antibiofouling SIROP Polypeptoid Brushes Composite ddc:540 rvk:UP 7500 Chemie Makromolekulare Chemie Oberflächenchemie
8	Dissipative Prozesse an Oberflächen Nitsche, David 14 May 2013 (has links) (PDF) In der Arbeit wird das Reibungsverhalten an Polymerbürsten im nanoskopischen und makroskopischen Kontakt beschrieben. Besonderes Augenmerk liegt auf den durch Reibung hervorgerufenen Deformationen. AFM Reibung Polymerbürsten Riffelstruktur Verschleiß Relaxationen Polymer AFM friction polymer brushes ripple structure wear relaxation polymer ddc:540 rvk:UV 7000
9	Investigation of Polymer Systems in Solutions with Electron Microscopy and Scattering Methods / Untersuchung von Polymersystemen in Lösung mittels Transmissionselektronenmikroskopie und Streumethoden Schellkopf, Leonard 21 May 2015 (has links) (PDF) This work is focused on the visualization and thus in the aid in finding explanations for the behavior of polymer structures as they exist in solution. For this aim, preparation and imaging techniques based on cryo-TEM protocols were developed for a large variety of polymeric specimens using new commercially available devices and the results were compared with the findings of other means of structural investigations. The systems used in this work were chosen, as their investigations can be adapted to other polymer systems by slight adaptation of the preparation procedures. Elektronenmikroskopie TEM Polymere Polymerbürsten Kryo-TEM electron microscopy TEM polymers polymer brushes Cryo-TEM ddc:540 rvk:VE 8007
10	Funktionelle Schichten aus Polymerbürsten Schneider, Maximilian 25 November 2016 (has links) Die Synthese von oberflächengepfropften Polypeptoidbürsten durch die Oberflächeninitiierte Ringoffnungspolmerisation von N-substituierten N-carboxyanhydriden wird beschrieben. Die entstehenden Schichten werden durch Zelladhäsionsexperimente und Oberflächenplasmonenresonanzspektroskopie auf ihre Antibiofouling-Eigenschaften untersucht. UV-Lithographie und Mikrokontaktdrucken wird zur Herstellung von strukturierten Oberflächen verwendet. Eine Funktionalisierung der Strukturen wird mit Fluoreszenzmikroskopie und Fluoreszenzmapping nachgewiesen. Ein zweiter Schwerpunkt befasst sich mit der Synthese von Kompositschichten. Oberflächengepropfte polykationische Polymerbürsten dienen als Einlagerungsmedium für negativ geladene Nanopartikel. Durch calcinieren werden poröse Schichten erhalten. Die Anwendung des Verfahrens auf ein Partikelsystem generiert poröse Core-Shell-Partikel. info:eu-repo/classification/ddc/540 ddc:540 SIROP, Polypeptoid, Brushes, Composite

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