1. | Surface | 1. surface 2. Coalescence 3. Chemical potential of particle |
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2. | Chemical potential & Solubility | 1.Chemical potential&Solubility 2. Oswald ripening 3. LabAgglomeration & stabilization 4. Electrode potential & surface charge 5. Nernst equation |
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3. | Electrode potential & surface charge | 1. Electrode potential & surface charge 2. Repulsion by surface charge |
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4. | Van der Waals attraction | 1. Van der Waals attraction potential 2. Electrostatic stabilization 3. Stericstabilization |
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5. | Nanoparticle | 1. Nanoparticle 2. Fields of NP technology 3. Synthetic approach 4. Homogeneous nucleation 5. |
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6. | Homogeneous nucleation | 1. Homogeneous nucleation 2. Growth 3. Diff controlled growth 4. Surface reaction controlled growth 5. Size distribution |
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7. | Synthesis | Synthesis | ||
8. | Heterogeneous nucleation | 1. Heterogeneous nucleation 2. Kinetically confined synthesis 3. Applications 4. Nanowires 5. Crystal growth 6. Evaporation-condensation 7. VLS growth |
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9. | Crystal growth | 1. Crystal growth 2. Evaporation-condensation 3. VLS growth |
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10. | VLS growth | 1. VLS growth 2. Template 3. Electrochemical deposition 4. Electrophoretic deposition 5. Template filling |
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11. | Lithography | 1. Lithography 2. Thin film growth 3. Vacuum 4. PVD |
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12. | CVD | 1. CVD 2. Self-assembly |
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13. | LB | 1. LB 2. Electrochemical deposition 3. Sol-gel film 4. Carbon Fullerene 5. Carbon nanotube |
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14. | Physical property | 1. Physical property 2. Melting point 3. Lattice constant 4. Mechanical property 5. Optical property |