KELSALL NANOTECHNOLOGIE PDF

Kelsall et al., Kelsall, R.W., Hamley, I.W., Geoghegan, M. (). Nanoscale Science and Technology. John Wiley and Sons Ltd., Chichester. „nanotechnologies” include technologies and methods of creating The basic goal of nanotechnology is .. Kelsall R.W., Hamley I.W., Geoghegan M.: 3. system (adapted from Nanoscale Science and Technology, Eds. R.W. Kelsall, I.W. Hamley, M. Geoghegan . electrochemical nanotechnology is as masks for.

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General characterization of nanotechnology and nanostructured materials, examples of nanomaterials in nature, various approaches for synthesis of nanostructured nanotechnolohie, properties of nanostructured kelsalp Nanotechnology and nanostructured materials, nanomaterials fabricated by lithographic techniques: Additional information registration calendar, class conductors, localization and schedules of classesmight be available in the USOSweb system:.

Materials Engineering, Nanotechnology, Chemistry, Physics. The course is designed to bring forth understanding of frontiers and limits of nanotechnology, nanoscience, and nanoengineering, with implications for electronics, optics, material design, computers, medicine and biotechnology. The goal of this course is also to introduce the student into the science and technology of fabrication of nanostructured materials. The emphasis of the course is concentrate on description of various synthetic approaches leading to modern nanostructured materials.

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Can explain how mechanical, electrical, magnetic, thermal and optical properties change kelsalp a size reduction of objects to nanoscale.

Can describe advantages and disadvantages of the size reduction to nanoscale, limits of nanotechnology and undesirable phenomena. Can discuss kelsll limits of nanotechnology with implications for electronics, optics, material design, computers, medicine and biotechnology. Can list basic techniques for characterization of nanomaterials. Can enunciate technological applications of nanomaterials, magnetic, electronic, optical, electrooptical, biological and medical nanodevices based on metallic, semiconductor and oxides nanodots, nanoparticles, quantum wells, nanowires and nantubes.

Can list and describe basic techniques and methods used for synthesis of nanostructured materials. Can characterize typical directions of development of nanomaterials engineering and chemistry of nanomaterials.

Can list and characterize in detail bottom-up and top-down methods used for fabrication of nanostructured materials. Can discuss advantages and disadvantages of various methods used for synthesis of nanostructured materials. Can chose the adequate, for certain needs and costs, synthesis methods of nanomaterials. Can evaluate the usefulness of individual techniques for solving certain case studies.

Dispose of the knowledge of safety rules. Dispose of basic knowledge concerning law regulations and ethical commitment concerning research.

Recognize the basic ideas and principles of intellectual property protection. Can use available resources of scientific journals to deepen knowledge about nanotechnology and methods for synthesis of nanostructured materials.

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Can use the knowledge form nanotechnology for research in the field of chemistry, physics, biotechnology and medicine.

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Can analyze information from different sources. Can present in a popular manner the recent developments within nanotechnology and related specializations. Can actively make use of English scientific literature nanorechnologie has ability to use English written materials. Can put into practice a self-learning process.

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Can respect the principles of professional ethics and copyrights. Can work autonomously showing awareness of responsibility for results of experiments. For planned interdisciplinary research in the field of nanotechnology, can evaluate a lack of the knowledge from related specializations, e.

Can express opinions on nanotechnology and methods used for synthesis of nanomaterials with interlocutors. Can name threats to human and environment coming from applications of nanomaterials.

Written or oral exam. Additional information registration calendar, class conductors, localization and schedules of classesmight be available in the USOSweb system: You are nanotechnologiw logged in log in.