Search for dissertations about: "Microcontact"
Showing result 1 - 5 of 14 swedish dissertations containing the word Microcontact.
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1. Magnetically governed self-assembly of soft matter : A look into interfacial layering, crystallization and percolation
Abstract : Self-organisation is the key route for assembling colloidal particles into well-defined structures. Decisive for this are the interactions between the constituents, which are amongst others steric, electrostatic or magnetic. READ MORE
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2. Surface Modifications for Biointerfaces - Supported Lipid Bilayers and some Aspects of Microcontact Printing
Abstract : Biointerfaces engage several disciplines: physics, materials science, chemistry, biology and medicine. They are found on the surfaces of implants, tubes and tanks in the food industry or on the hull of a boat. In this work, model surfaces aimed for contact with biological systems were studied. READ MORE
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3. Microcontact Printing for Protein Microarray Applications
Abstract : This thesis introduces the microcontact printing (μCP) method to pattern and tailor the desired substrates for protein microarray applications. The ink molecules used to create the patterns, hydrophobic barriers, are tetraalkyl ammonium salt, polycationic polymers and oligo(ethylene glycol)-terminated self-assembled monolayers. READ MORE
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4. Microfluidic devices for biotechnology and organic chemical applications
Abstract : Imagine if you could combine the power and capabilities ofan entire laboratory in the palm of your hand. Advances inmicrofluidic chip technology promise to integrate andminiaturize multiple lab processes into a single palm-sizeddevice. READ MORE
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5. Microfluidic bead-based methods for DNA analysis
Abstract : With the completion of the human genome sequencing project, attention is currently shifting toward understanding how genetic variation, such as single nucleotide polymorphism (SNP), leads to disease. To identify, understand, and control biological mechanisms of living organisms, the enormous amounts of accumulated sequence information must be coupled to faster, cheaper, and more powerful technologies for DNA, RNA, and protein analysis. READ MORE