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Lecturer(s)
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Havelka Ondřej, Ing. Ph.D.
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Course content
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The course focuses on the following topics: 1) Laser production of nano- and microparticles: laser ablation in liquids, laser fragmentation in liquids, laser melting in liquids, specifics of particle characterization 2) Laser additive printing of nano- and micromaterials: laser forward and reverse transfer, two-photon polymerization, laser "direct writing" and local sintering/reduction, specifics of additive printing characterization 3) Laser nano- and micro-surface modification: laser structuring/texturing, periodic surface structures, laser surface chemistry and functional modifications, specifics of characterizing modified surfaces
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Learning activities and teaching methods
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Group consultation, Individual consultation, Lecture
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Learning outcomes
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This course covers advanced topics in laser micro- and nanotechnology, focusing on laser-initiated chemical and physicochemical processes in the production and processing of nano- and microparticles, laser printing of functional nano- and micromaterials, and laser nano- and micro-surface modification. Emphasis is placed on reaction mechanisms, chemical composition, and surface chemistry, as well as on the selection of process parameters for characterization and the design of experiments with a direct link to research.
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Prerequisites
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unspecified
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Assessment methods and criteria
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Oral exam
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Recommended literature
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Somers, P., Münchinger, A., Maruo, S., Moser, C., Xu, X., Wegener, M. The physics of 3D printing with light. Nature Reviews Physics, 6(2), 99?113. 2024.
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Wrede, P., Remlova, E., Chen, Y., Deán-Ben, X. L., Sitti, M., Razansky, D. Synergistic integration of materials in medical microrobots for advanced imaging and actuation. Nature Reviews Materials. 2025.
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