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Limits of lithography |
Overview of selected examples of organic and hybrid self-assembly, and of the methods of their characterization; milestones in miniaturization – brief history of device miniaturization by lithographic methods; Moore’s law; invention of STM. |
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Thermodynamics of self-assembly 1 |
Thermodynamic basis of self-assembly – classical and statistical thermodynamics of molecules, crystals, liquids, liquid crystals and polymers, order and disorder, partition function and thermodynamic functions for single-component molecular systems, phase diagrams (single component, binary, ternary), miscibility, binodal and spinodal decomposition. |
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3. |
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Thermodynamics of self-assembly 2 |
Thermodynamic basis of self-assembly – classical and statistical thermodynamics of molecules, crystals, liquids, liquid crystals and polymers, order and disorder, partition function and thermodynamic functions for single-component molecular systems, phase diagrams (single component, binary, ternary), miscibility, binodal and spinodal decomposition. |
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4. |
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Thermodynamics of self-assembly 3 |
Thermodynamic basis of self-assembly – classical and statistical thermodynamics of molecules, crystals, liquids, liquid crystals and polymers, order and disorder, partition function and thermodynamic functions for single-component molecular systems, phase diagrams (single component, binary, ternary), miscibility, binodal and spinodal decomposition. |
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5. |
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Thermodynamics of self-assembly 4 |
Thermodynamic basis of self-assembly – classical and statistical thermodynamics of molecules, crystals, liquids, liquid crystals and polymers, order and disorder, partition function and thermodynamic functions for single-component molecular systems, phase diagrams (single component, binary, ternary), miscibility, binodal and spinodal decomposition. |
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6. |
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Intermolecular forces |
Interatomic and intermolecular force |
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7. |
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Introduction to liquid crystals |
Long- and short-range order, correlation function, disordered crystals (ordered, conformationally and orientationally disordered, plastic); liquid crystal self-assembly – thermotropic and lyotropic, thermodynamic basis (partition f), structure and phase transitions, |
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8. |
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Midterm Examination |
Midterm Examination |
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9. |
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Liquid crystal displays |
Optical properties and optical characterization techniques - including general background on interaction of polarized light with matter: birefringence, liquid crystal textures in polarized light, curvature elasticity |
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10. |
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Liquid crystal displays |
Optical properties and optical characterization techniques - including general background on interaction of polarized light with matter: birefringence, liquid crystal textures in polarized light, curvature elasticity |
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11. |
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Helical and polymeric liquid crystals, dichroism and ellipsometry |
TN and STN LC displays, multiplexing, active matrix; in-plane switching and VAN; ferroel. LCD; |
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12. |
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Circularly polarized light; optical activity; circular dichroism; ellipsometry; 0cholesteric liquid crystals |
Circularly polarized light; optical activity; circular dichroism; ellipsometry; 0cholesteric liquid crystals |
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13. |
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Summary, revision, discussion |
Summary, revision, discussion |
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14. |
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Home study |
Home study |
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15. |
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Final examination |
Final examination |
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16. |
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수업자료 (1) |
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수업자료 (2) |
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수업자료 (3) |
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수업자료 (4) |
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수업자료 (5) |
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수업자료 (6) |
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