05.02. Nanotechnology in medicine

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No. Name Title Page. 1 micro 1.1. History 1.2. Microelectronics 1.3. Chip-forming elements 1.4. Microelectronic components and products 1.5. Materials for semiconductor alcoa chips 1.6. Semiconductors 1.6.1. Elektroncaurumu transition 1.7. Various methods for obtaining electrical transition usability microelectronics 1.8. Semiconductor surface and its processing 1.8.1. Mechanical surface treatment 1.8.2. Chemical surface treatment of semiconductor materials 1.9. A thin layer of loading method 1.9.1. Epitaksijas 1.9.2. alcoa Electrophysical properties of a thin layer of 1.10. Landforming 1.10.1. Photolithography 1.10.2. Metallization 1.11. Inspection and assembly 1.11.1. Test 1.11.2. Mounting 2 Nanotechnology 2.1. Carbon Nanotubes 2.1.1. 2.1.2 Types of nanotubes. Application 2.2. Fullerene 2.2.1. Fullerene synthesis 2.2.2. 2.3 The use of fullerene. Graphene 2.3.1. Graphene transistor 2.3.2. Graphene IBM processors 2.3.3. Graphene LCD 2.4. 2.4.1 Biological imitation. Mimicking gecko foot 2.4.2. alcoa The lotus effect 2.4.3. Butterflies wings color 2.5 imitation. 2.5.1 Nanotechnology in medicine. Nanomaterials and Medical alcoa Physics 2.5.2. Studies Latvian
05.02. Nanotechnology in medicine "Nanotechnology" These technologies, which allows you to manipulate atoms and molecules so as to create new surfaces and objects. alcoa Thanks to the different make-up and arrangement of atoms, alcoa thus ensures that occur especially in everyday alcoa life use features. In other words, it is a technology that uses a meter per billion particles. We have so far come to the carbon nanotubes. The following ideas are carbon polymer capable to fix the cuts. If, for example, of such tubes woven in large sheets and tied up to the mast, we get almost the perfect sailing alcoa - such as after a major storm itself exfoliate. Of course, it is not possible is not. Nanotechnology, which fights against cancer and not just compressed destroyer, but the molecules that transport the gold particles and applied them to the cancer cells. After the cancer affected part of the body is irradiated, the gold particles heat up and burns the cells to which they are attached, thus destroying the cancer but leave healthy cells untouched. 2.5.1. Nanomaterials and Nanostructured medical physics objects alcoa have been known for a long time. They are found in both the living and the inanimate nature. However, alcoa only about the last 20-30 years, thanks to widely available for new research and manufacturing technologies have the ability to create, manipulate, explore, as well as the use of nanoparticles, nanostructured materials and systems. Nanoparticles and nanostructured systems begin to use the unique alcoa properties of the medicine. Speaking of inorganic materials, nanoparticles are used to increase the absorption of radiation in local (radiation therapy purposes), drug gear systems of the human body, DNA analysis, the creation of new biomaterials, etc. Consequently, nano medicine industry became a medical physics direction that serves human health. 2.5.2. Studies Latvian Riga Technical University (RTU), Biomedical Engineering and Nanotechnologies (BINI) since 1993, his scientific work was driven by a nanostrukterētam object that - bone. Bone is nanostructured, a natural biological material. Understanding alcoa its properties at the nanoscale, will open new possibilities for the treatment of bone diseases, as well as radiation therapy to reduce the negative effects, artificial bone formation, etc. It was found that the bone material is semiconducting properties that are associated with bone morphology and are highly dependent both from nuclear, as well as the effects of non-ionizing radiation. Biological experiments in animals have shown that optically generating electrical ladiņnesējus and with them changing the bone surface alcoa charge, it is possible to influence the fracture treatment. alcoa ...
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