Nanostructure Materials Material Science 7th Sem Syllabus for BE 2017 Regulation Anna Univ

Nanostructure Materials detail syllabus for Materials Science And Engineering (Material Science), 2017 regulation is taken from Anna University official website and presented for students of Anna University. The details of the course are: course code (ML8702), Category (PC), Contact Periods/week (3), Teaching hours/week (3), Practical Hours/week (0). The total course credits are given in combined syllabus.

For all other material science 7th sem syllabus for be 2017 regulation anna univ you can visit Material Science 7th Sem syllabus for BE 2017 regulation Anna Univ Subjects. The detail syllabus for nanostructure materials is as follows.”

Course Objective:

• To motivate the students to understand the evolution of nanomaterials in the scientific era and make them to understand different processing methods, properties of nanomaterials for the future engineering applications

Unit I

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Unit II

Zero Dimensional Nanomaterials
Nanoparticles – Properties – Processing – Liquid state processing – Sol-gel process, wet chemical synthesis – Vapour state processing – PVD, CVD, Aerosol processing, solid state processing -mechanical, mechanochemical synthesis – Application of nanoparticle. Quantum Dots – Quantum confinement – Paulis Exclusion Principle – Processing – Optical lithography – MOCVD -Droplet epitaxy – Applications.

Unit III

One Dimensional Nanomaterials
Carbon nanotubes – Old and new forms of carbon – Structure of CNT and classification -Processing – Solid carbon based production techniques – Gaseous carbon based production technique – growth mechanisms – Applications.Nanowire – processing – Laser ablation – Oxide assisted growth – carbo thermal reactions – Thermal evaporation – Temperature based synthesis – Electro spinning – Vapour-Solid growth (VS growth) – vapour – liquid – solid growth (VLS technique) – Applications.

Unit IV

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Unit V

Characterization of Nanomaterials
Nano indentation – Types of nanoindenter – Force actuation-Displacement measurementfactors affecting nanoindentation- Atomic Force Microscope (AFM) – Scanning Tunneling Microscope (STM) – Electrostatic Force Mode (EFM) – Magnetic Force Mode (MFM) – Scanning Electron Microscope (SEM) – Transmission Electron Microscope (TEM).

Course Outcome:

• Able to understand and describe the development of nanomaterials and its classification.
• Able to understand the synthesis routes of zero dimensional nanomaterials.
• Able to understand the advantages and limitation of various synthesis routes of CNT.
• Ability to apply grains size strengthening mechanism concepts in bulk nanostructure formation.
• To have the knowledge of hardness measurements of nanomaterials.

Text Books:

1. Carl C. Koch (ed.), ” Nanostructured Materials”, Processing, Properties and Potential Applications, Noyes Publications, Norwich, New York, U.S.A.,2002.
2. Bhusan, Bharat (Ed), Springer Handbook of Nanotechnology, 2nd Edition, 2007.

References:

1. Bamberg, D., Grundman, M. and Ledentsov, N.N., Quantum Dot Heterostructures, Wiley, 1999.
2. Charles P. Poole Jr., Frank J. Ownes, Introduction to Nanotechnology, Wiley Interscience, 2003.
3. G Timp (ed), Nanotechnology, AIP press/Springer, 1999.
4. K.A. Padmanabhan and S. Balasivanandha Prabu, On the Origins of Conflict in the Experimental Results Concerning the Mechanical Properties of Ultra-Fine Grained and Nanostructured Materials: Effects of Processing Routes and Experimental Conditions, Adv.Mech.Properties and Deform. Mechanism of Bulk Nanostr.Mat, Trans Tech Publication,UK, ISBN-13::978-3-03785-105-0, pp.3-54,
5. Mark Ratner and Daniel Ratner, Nano Technology, Pearson Education, New Delhi, 2003.
6. G. Wilde, Nanostructured Materials, Elsevier, 2008.

For detail syllabus of all other subjects of BE Material Science, 2017 regulation do visit Material Science 7th Sem syllabus for 2017 Regulation.

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