AP7012 NANO ELECTRONICS SYLLABUS FOR ME 2ND SEM ECE REG 2013

 ANNA UNIVERSITY, CHENNAI

REGULATIONS - 2013
AP7012 NANO ELECTRONICS SYLLABUS

ME 2ND SEM ELECTRONICS AND COMMUNICATION ENGINEERING SYLLABUS

AP7012 NANO ELECTRONICS SYLLABUS

OBJECTIVES:
1. To learn and understand basic concepts of Nano electronics.
2. To know the techniques of fabrication and measurement.
3. To gain knowledge about Nanostructure devices and logic devices.

UNIT I INTRODUCTION TO NANOELECTRONICS
Microelectronics towards biomolecule electronics-Particles and waves- Wave-particle duality- Wave mechanics- Schrödinger wave equation- Wave mechanics of particles: - Atoms and atomic orbitals- Materials for nanoelectronics- Semiconductors- Crystal lattices: Bonding in crystals- Electron energy bands- Semiconductor heterostructures- Lattice-matched and pseudomorphic heterostructures- Inorganic-organic heterostructures- Carbon nanomaterials: nanotubes and fullerenes

UNIT II FABRICATION AND MEASUREMENT TECHNIQUES
Growth, fabrication, and measurement techniques for nanostructures- Bulk crystal and heterostructure growth- Nanolithography, etching, and other means for fabrication of nanostructures and nanodevices- Techniques for characterization of nanostructures- Spontaneous formation and ordering of nanostructures- Clusters and nanocrystals- Methods of nanotube growth- Chemical and biological methods for nanoscale fabrication- Fabrication of nano-electromechanical systems

UNIT III PROPERTIES
Dielectrics-Ferroelectrics-Electronic Properties and Quantum Effects-Magnetoelectronics – Magnetism and Magnetotransport in Layered Structures-Organic Molecules – Electronic Structures, Properties, and Reactions-Neurons – The Molecular Basis of their Electrical Excitability-Circuit and System Design- Analysis by Diffraction and Fluorescence Methods- Scanning Probe Techniques

UNIT IV NANO STRUCTURE DEVICES
Electron transport in semiconductors and nanostructures- Time and length scales of the electrons in solids- Statistics of the electrons in solids and nanostructures- Density of states of electrons in nanostructures- Electron transport in nanostructures-Electrons in traditional low-dimensional structures- Electrons in quantum wells- Electrons in quantum wires- Electrons in quantum dots- Nanostructure devices- Resonant-tunneling diodes- Field-effect transistors- Single-electrontransfer devices- Potential-effect transistors- Light-emitting diodes and lasers- Nanoelectromechanical system devices- Quantum-dot cellular automata

UNIT V LOGIC DEVICES AND APPLICATIONS
Logic Devices-Silicon MOSFETs-Ferroelectric Field Effect Transistors-Quantum Transport Devices Based on Resonant Tunneling-Single-Electron Devices for Logic Applications-Superconductor Digital Electronics-Quantum Computing Using Superconductors-Carbon Nanotubes for Data Processing-Molecular Electronics

TOTAL: 45 PERIODS

REFERENCES:
1. Vladimir V. Mitin, Viatcheslav A. Kochelap, Michael A. Stroscio, “Introduction to Nanoelectronics: Science, Nanotechnology, Engineering, and Applications”, Cambridge University Press 2011
2. Supriyo Datta, “Lessons from Nanoelectronics: A New Perspective on Transport”, World Scientific 2012
3. George W. Hanson,“Fundamentals of Nanoelectronics”, Pearson 2009
4. Korkin, Anatoli; Rosei, Federico (Eds.), “Nanoelectronics and Photonics”, Springer 2008
5. Mircea Dragoman, Daniela Dragoman, “Nanoelectronics: principles and devices”, CRC Press 2006
6. Karl Goser, Peter Glösekötter, Jan Dienstuhl,“Nanoelectronics and Nanosystems: From Transistors to Molecular and Quantum Devices“, Springer 2004
7. W. R. Fahrner, Nanotechnology and Nan electronics: Materials, Devices, Measurement Techniques (SpringerVerlag Berlin Heidelberg 2005)
8. Mark A. Reed, Takhee Lee, “Molecular nanoelectronics”, American Scientific Publishers 2003
9. Jaap Hoekstra,“Introduction to Nanoelectronic Single-Electron Circuit Design”, Pan Stanford Publishing 2010
10. W. Ranier, “Nano Electronics and Information Technology”, John Wiley & Sons 2012