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Lecturer(s)
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Procházka Vít, doc. Mgr. Ph.D.
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Vůjtek Milan, Mgr. Ph.D.
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Course content
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1. Magnetic and optical properties of nanostructures ? Introduction to magnetism of nanostructures ? ?new? forms of magnetism ? Nanopigments, absorption spectra 2. Magnetic applications of nanostructures ? nanomagnets ? magnetic separation and purification ? ferrofluid technologies ? magnetocaloric refrigeration ? magnetic recording media 3. Nanomaterials for special applications ? For energy storage ? Gas sensors ? Photoelectrical applications 4. Litografie II ? Projective photolitography ? Another and special litographic techniques 5. Manipulation with nanoobject ? Manipulation with nanoobjects by using of SPM, FIB a EM ? Optical and magnetic tweezer ? nanomanipulators ? microequipments 6. Introduction to nanoelectronics ? Problems of current electronics ? Adaptation for nanosystems ? Selected architectures and equipment 7. Nano and mikrosystém technologies ? Basic principles of integration ? MEMS in narrow meaning ? microfluids ? NEMS 8. Bionanoapplications - introduction ? biomimetcs ? application of nanomaterials in medicine ? contrast agents MRI ? hypertermia 9. Bionanoapplications ? Antimicrobial effects of nanoparticles ? Magnetic carries 10. Environmental and other aspects ? Health, ecological and social impacts of nanotechnologies
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Learning activities and teaching methods
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Lecture
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Learning outcomes
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Knowledge in the range of lecture content. Regular visit of the lectures is strongly recommended.
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Prerequisites
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unspecified
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Assessment methods and criteria
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Mark
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Recommended literature
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Blundell, S. (2003). Magnetism in Condensed Matter.. Oxford University Press.
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Jiles, D. (1997). Introduction to Magnetism and Magnetic Materials, Second Edition. Chapman & Hall, London.
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Poole, Ch.P., Owens, F.J. (2003). Introduction to Nanotechnology. John Wiley & Sons, New Jersey.
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