Fabrication and Study of Switchable Polymer Layers with Hydrophobic/Hydrophilic Behavior

The framework of this thesis aims to fabricate materials, which change surface characteristics in response to environmental conditions. This response may be employed to improve material characteristics as adhesion, wettability, interaction with cells etc. The mixed brushes introduce adaptive and switching behavior in different surrounding media. Two main approaches were employed to fabricate mixed polymer brushes: "grafting to" and "grafting from". Mixed PS/PVP polymer brushes were synthesized via step-by-step grafting of these two polymers from polyamide (PA) surfaces. NH3 plasma was used for the introduction of amino and OH functionalities on PA surfaces with following attachment of azo initiator of radical polymerizaton. The mixed brushes prepared on the surface of PA textiles combine both the switching effect and effect of composite surface (i.e. micrometer scale roughness) which substantially amplifies the switching range. Mixed polymer brushes prepared from P(S-b-2VP-b-EO) and P(S-b-4VP) block copolymers were grafted to both the flat surface of Si wafers and to the surface of silica nanoparticles via quaternization reaction of the pyridine nitrogen. This one step grafting technique has a substantial advantage over the multistep grafting of mixed polymer brushes. We have demonstrated that combination of the two level hierarchical organization of polymer films at macroscopic and nanoscopic levels resulted in the formation of self adaptive surfaces switchable in controlled environment from ultra-hydrophobic to hydrophilic energetic states. The PFS/PVP mixed brush was grafted onto the pre-treated PTFE surface (plasma etching) with the needle like topography. The size of vertical needles was at micron scale. If the brush is switched to the hydrophobic state the layer has shown a unique ultra-hydrophobic behavior (complete non-wetting) with the contact angle approaching value of 160o. If the mixed brush was switched into the hydrophilic state the surface became completely wetted due to the capillary forces in the pores formed by the needle like structure. Thus, the surface can be either highly wettable or completely non-wettable with the self cleaning properties

Oberflächen passen sich an - bürstenartige Polymermoleküle an Oberflächen mit schaltbaren Eigenschaften

It is the surface which in many cases determines the appearance and application-relevant properties of a material. Thin films of polymer brushes just a few nanometres in thickness can change the surface properties significantly and may provide even switching capabilities, where the thin film will for instance take up or repel water. Polymer brushes of two largely different polymer materials must in this case be tightly attached at one end to a solid substrate and will then occupy alternatively the upper or lower surface layer, depending on external conditions. In this way, either one or the other polymer material will be exposed and influence the surface properties. This purely physical switching process can be controlled by external triggers (selective or non-selective solvents, pH value, temperature, etc.). The physico- chemical surface properties (wettability, functionality etc.) switch between values established by the properties of the polymer materials involved.Oberflächen bestimmen in vielen Fällen das Erscheinungsbild und wichtige Gebrauchseigenschaften von Materialen. Bereits wenige Nanometer dünne Polymerfilme können diese Eigenschaften signifikant verändern und erlauben es, diese Eigenschaften sogar zu schalten, sodass ein Film beispielsweise Wasser abweisen oder aufnehmen kann. Hierzu werden Polymerbürsten aus zwei sehr verschiedenen Polymeren mit dem einen Ende fest an ein Substrat gebunden. In Abhängigkeit von den äußeren Bedingungen können sie sich dann wechselseitig an der Oberfläche anreichern, sodass die Oberflächeneigenschaften jeweils durch das eine oder andere Polymer bestimmt werden. Dieser rein physikalische Schaltprozess kann durch externe Stimuli (selektive oder nichtselektive Lösungsmittel, pH-Wert, Temperatur etc.) initiiert werden, wobei die physiko-chemischen Oberflächeneigenschaften (Benetzbarkeit, Funktionalität etc.) zwischen den durch die Eigenschaften der verwendeten Polymere bestimmten Extremwerten hin und her schalten können

Towards Biochemical Filter with Sigmoidal Response to pH Changes: Buffered Biocatalytic Signal Transduction

We realize a biochemical filtering process by introducing a buffer in a biocatalytic signal-transduction logic system based on the function of an enzyme, esterase. The input, ethyl butyrate, is converted into butyric acid-the output signal, which in turn is measured by the drop in the pH value. The developed approach offers a versatile "network element" for increasing the complexity of biochemical information processing systems. Evaluation of an optimal regime for quality filtering is accomplished in the framework of a kinetic rate-equation model.Comment: PDF, 23 page

Cross-Regulation of an Artificial Metalloenzyme

Cross-regulation of complex biochemical reaction networks is an essential feature of living systems. In a biomimetic spirit, we report on our efforts to program the temporal activation of an artificial metalloenzyme via cross-regulation by a natural enzyme. In the presence of urea, urease slowly releases ammonia that reversibly inhibits an artificial transfer hydrogenase. Addition of an acid, which acts as fuel, allows to maintain the system out of equilibrium

Biocompatible PEG‐Chitosan@Carbon Dots Hybrid Nanogels for Two‐Photon Fluorescence Imaging, Near‐Infrared Light/pH Dual‐Responsive Drug Carrier, and Synergistic Therapy

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/113706/1/adfm201501524.pdfhttp://deepblue.lib.umich.edu/bitstream/2027.42/113706/2/adfm201501524-sup-0001-S1.pd

Особенности процесса распространения электромагнитной волны вдоль канала высокочастотного факельного разряда

Исследование влияния осевой неоднородности на распространение электромагнитной волны вдоль канала высокочастотного факельного разряда горящего в воздухе, при атмосферном давлении. На основе модели разряда в виде неоднородной электрической линии конечной длины проведен расчет распределения электрического поля вдоль оси разряда.Study of the influence of axial inhomogeneity on the propagation of an electromagnetic wave along the channel of a high-frequency torch discharge burning in air at atmospheric pressure. On the basis of the discharge model in the form of an inhomogeneous electric line of finite length, the calculation of the electric field distribution along the discharge axis is carried out

Synthesis of β‐Cyclodextrin Containing Copolymer via “Click” Chemistry and Its Self‐Assembly in the Presence of Guest Compounds

We report the synthesis of a hydrophilic copolymer with one polyethylene glycol (PEG) block and one β‐cyclodextrin (β‐CD) containing block by a “click” reaction between azido‐substituted β‐CD and propargyl flanking copolymer. 1 H NMR study suggested a highly efficient conjugation of β‐CD units by this approach. The obtained copolymer was used as a host macromolecule to construct assemblies in the presence of hydrophobic guests. For assemblies containing a hydrophobic polymer, their size can be simply adjusted by simply changing the content of hydrophobic component. By serving as a guest molecule, hydrophobic drugs can also be loaded accompanying the formation of nanoparticles, and the drug payload is releasable. Therefore, the copolymer synthesized herein can be employed as a carrier for drug delivery. The synthesis of β‐cyclodextrin containing block copolymer via a “click” reaction is reported. The self‐assembly of this newly synthesized copolymer in the presence of guest compounds can lead to the formation of core–shell structured nanoparticles. These assemblies can be employed as novel delivery vehicles for therapeutics.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/91173/1/marc_201100814_sm_suppl.pdfhttp://deepblue.lib.umich.edu/bitstream/2027.42/91173/2/664_ftp.pd

Nanoparticle polydispersity can strongly affect in vitro dose

When nanomaterials meet the biological world, the cellular interaction of nanoparticles is routinely assessed in in vitro systems. Establishing dose–response relationships requires that the dose of nanoparticles delivered to the cell is accurate and precise. Nanoparticles as such or coated with high molecular-weight compounds are rarely uniform and the influence of heterogeneity, including polydispersity both in size and mass density, on the delivered dose is never studied before. Furthermore, a probabilistic term describing particle adherence to cells is introduced and the importance is discussed. By tracing the movement of discrete particles via modeling, it is found that the influence of heterogeneity cannot be neglected when the average particle size promotes settling over diffusion. However, the influence of polydispersity on the delivered cellular dose is less critical for particulate systems whose mean size promotes diffusion. The influence of a non-instantaneous particle association to the cell is negligible for particles whose motion is dominated by settling, but it is relevant for small particles whose motion is governed by diffusion

Control of Noise in Chemical and Biochemical Information Processing

We review models and approaches for error-control in order to prevent the buildup of noise when gates for digital chemical and biomolecular computing based on (bio)chemical reaction processes are utilized to realize stable, scalable networks for information processing. Solvable rate-equation models illustrate several recently developed methodologies for gate-function optimization. We also survey future challenges and possible new research avenues.Comment: 39 pages, 8 figures, PD

An All-Photonic Molecule-Based D Flip-Flop

The photochromic fluorescence switching of a fulgimide derivative was used to implement the first molecule-based D (delay) flip-flop device, which works based on the principles of sequential logic. The device operates exclusively with photonic signals and can be conveniently switched in repeated cycles. \ua9 2011 American Chemical Society