| 1 | Introduction to nanochemistry and basic concepts | [4] p.11-22, [5] p.1-7. |
| 2 | Scope and importance of nanochemistry concepts | [1] p.1-12, [4] p.34-37. |
| 3 | Theory and thermodynamics of nanochemistry | [3] p.46-50, p.55-73. |
| 4 | Classification of nanostructures | [2] p.1-7, [4] p.26-34, [5] p.1-5. |
| 5 | Electronic and catalytic properties of nanostructures | [3] p.135-152, [4] p.37-47, [5] p.5-9. |
| 6 | Synthesizing nanostructures | [2] p.11-38. |
| 7 | Physical and chemical methods used in the preparation of nanostructures | [2] p.38-43, [3] p.74-86. |
| 8 | Top-down method | [2] p.43-54, [3] p.549-565. |
| 9 | Bottom-up method | [2] p.43-54, [3] p.549-565. |
| 10 | Spectroscopic methods in nanostructures | [2] p.110-135, p.257-262. |
| 11 | Microscopic methods in nanostructures | [2] p.25-26, p.44-46, p.48, p.77-78, p.80-81, p.104, p.157, p.210, p.213, p.266. |
| 12 | Nanocrystals and nanowires | [2] p.209-218, p.260-262, p.313-333, [3] p.35-54, p.185-187, p.451-454. |
| 13 | Techniques used in the characterisation of nanomaterials | [2] p.83-87, p.157-160, p.230-237, [5] p.8-24. |
| 14 | Applications of nanostructures in various field | [2] p. 237-270, p. 326-337, [3] p. 695-715, [4] p. 37-47, [5] p. 38-79, [6]. |