Nanoelectronics: Devices and Materials


Lecture 1 - Introduction to Nanoelectronics


Lecture 2 - CMOS Scaling Theory


Lecture 3 - Short Channel Effects


Lecture 4 - Subthreshold Conduction


Lecture 5 - Drain Induced Barrier Lowering


Lecture 6 - Channel and Source / Drain Engineering


Lecture 7 - CMOS Process Flow


Lecture 8 - Gate oxide scaling and reliability


Lecture 9 - High-k gate dielectrics


Lecture 10 - Metal gate transistor


Lecture 11 - Industrial CMOS Technology


Lecture 12 - Ideal MOS C-V Characteristics


Lecture 13 - Effect of non idealities on C-V


Lecture 14 - MOS Parameter Extraction from C-V Characteristics


Lecture 15 - MOS Parameter Extraction from I-V Characteristics


Lecture 16 - MOSFET Analysis, sub-threshold swing “S”


Lecture 17 - Interface state density effects on “S”. Short Channel Effects (SCE) and Drain Induced Barrier Lowering (DIBL)


Lecture 18 - Velocity Saturation, Ballistic transport, and Velocity Overshoot Effects and Injection Velocity


Lecture 19 - SOI Technology and comparisons with Bulk Silicon CMOS technology


Lecture 20 - SOI MOSFET structures, Partially Depleted (PD)and Fully Depleted (FD) SOIMOSFETs


Lecture 21 - FD SOI MOSFET: Operation Modes and Threshold Voltages and Electric Fields


Lecture 22 - Sub-threshold Slope & SCE suppression in FD SOI MOSFET, Volume Inversion and Ultra thin (UTFD) SOI MOSFET and quantization Effect, FINFET


Lecture 23 - Need for MS contact Source/Drain Junction in Nano scale MOSFETs


Lecture 24 - Rectifying and Ohmic contacts and challenges in MS unction source drain MOSFET Technology


Lecture 25 - Effect of Interface states and Fermi level pinning on MS contacts on Si and passivation techniques for MS S/D MOSFETS


Lecture 26 - Germanium as an alternate to silicon for high performance MOSFETs and the challenges in Germanium Technology


Lecture 27 - Germanium MOSFT technology and recent results on surface passivated Ge MOSFETS


Lecture 28 - Compound semiconductors and hetero junction FETsfor high performance


Lecture 29 - GaAs MESFETs: Enhancement and depletion types. Velocity Overshoot effcts in GaAs MESFETs


Lecture 30 - Hetero-junctions and High Electron Mobility Transistors (HEMT)


Lecture 31 - Introduction to Nanomaterials


Lecture 32 - Basic Principles of Quantum Mechanics


Lecture 33 - Basic Principles of Quantum Mechanics (Continued...)


Lecture 34 - Energy bands in crystalline solids


Lecture 35 - Quantum structures and devices


Lecture 36 - Crystal growth and nanocrystals


Lecture 37 - Nanocrystals and nanostructured thin films


Lecture 38 - Nanowires and other nanostructures


Lecture 39 - Carbon Nanostructures and CVD


Lecture 40 - Atomic layer deposition (ALD)


Lecture 41 - Characterisation of nanomaterials