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나노재료에 대한 개괄 |
This lecture will introduce nanoscience and nanotechnology. Special emphasis on the importance of nanostructured materials will be given. |
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Synthesis of Spherical Nanocrystals (1) |
This lecture will introduce the synthesis of uniform-sized spherical nanocrystals, particularly emphasize the importance of the size in nanocrystals to impart their properties. |
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Synthesis of Spherical Nanocrystals (2) |
In this lecture, formation kinetics of uniform-sized nanocrystals based on LaMer mechanism will be discussed. |
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Synthesis of Spherical Nanocrystals (3) |
This lecture will introduce the engineering methods to tailor the physical properties (e.g. band-gap) of semiconductor nanocrystals by core-shell structure formation. |
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Synthesis of Spherical Nanocrystals (4) |
This lecture will introduce the engineering methods to tailor the physical properties (e.g. band-gap) of semiconductor nanocrystals by core-shell structure formation. |
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Synthesis of Spherical Nanocrystals (5) |
In this lecture, the application of semiconductor nanocrystals for biomedical applications will be introduced. |
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Low-dimensional Nanocrystals (1) |
This lecture will introduce the various synthetic methods of 1-dimensional nanostructures including nanowires and nanoribbons. |
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Low-dimensional Nanocrystals (2) |
In this lecture, the application of 1-D nanostructures including optoelectronic devices from solar cells to biosensors. |
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Hetero-nanostructures, doped nanocrystals, and hollow nanocrystals, Gold nanocrystals (1) |
This lecture will introduce synthesis of heterostructured nanostructures, which impart great multi-functionalities. |
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Hetero-nanostructures, doped nanocrystals, and hollow nanocrystals, Gold nanocrystals (2) |
In this lecture, the doping method of semiconductor nanocrystals and hollow nanocrystals formation will be discussed. |
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Nanoporous Materials (1) |
This lecture will introduce Zeolite science and technology including structure classification, synthesis, etc. |
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Nanoporous Materials (2) |
This lecture will introduce synthesis and characterizations of mesoporous materials. Particular emphasis on micelle colloidal chemistry, sol-gel process will be given. |
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Multifunctional Nanostructured Materials (1) |
This lecture will introduce the design of multi-functional platform based on silica materials. |
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Multifunctional Nanostructured Materials (2) |
This lecture will discuss the application of the multi-functional nanostructured materials for biomedical applications in terms of diagnosis and targeted therapy. |
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Advanced Topics |
In this lecture, special topics in nanostructured will be discussed in terms of applications. |
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8. |
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Final Exam |
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