Chemical Engineering Principles of CVD Processes (USB)
Media Storage Type : 32 GB USB Stick
NPTEL Subject Matter Expert : Dr. R. Nagarajan
NPTEL Co-ordinating Institute : IIT Madras
NPTEL Lecture Count : 39
NPTEL Course Size : 18 GB
NPTEL PDF Text Transcription : Available and Included
NPTEL Subtitle Transcription : Available and Included (SRT)
Lecture Titles:
Lecture 1 - Introduction
Lecture 2 - CVD Reactor and Process Design Fundamentals
Lecture 3 - Overview of CVD Process Fundamentals
Lecture 4 - Basics of Chemical Equilibrium Calculations and Flow Dynamics
Lecture 5 - Introduction to CVD Films
Lecture 6 - Film Structure and Properties
Lecture 7 - Pressure Effects on CVD Processes
Lecture 8 - CVD of Metals
Lecture 9 - CVD of Coatings
Lecture 10 - CVD Film Property Measurements
Lecture 11 - CVD Film Property Measurements: Qualitative and Quantitative
Lecture 12 - CVD in Tungsten Filament Lamps
Lecture 13 - CVD in Tungsten Filament Lamps: Design Aspects
Lecture 14 - CVD in Hot Corrosion
Lecture 15 - CVD Transport Phenomena: Conservation Equations
Lecture 16 - CVD Transport Phenomena: Constitutive Laws
Lecture 17 - CVD Transport Phenomena: Mass Transfer Mechanisms
Lecture 18 - CVD Transport Phenomena: Mass Transfer Analogy Condition (MTAC)
Lecture 19 - CVD Transport Phenomena: Effect of Homogeneous Reactions on MTAC
Lecture 20 - CVD Applications: Hot Filament CVD (HFCVD)
Lecture 21 - CVD Applications: Aerosol CVD (ACVD)
Lecture 22 - CVD Applications: CVD of Silicon
Lecture 23 - CVD Applications: CVD in Free-Molecular Flow Regime (FMFR)
Lecture 24 - CVD Applications: CVD of nano-Structured Films
Lecture 25 - CVD Overview
Lecture 26 - Review of CVD Basics: Part-I
Lecture 27 - Review of CVD Basics: Part-II
Lecture 28 - CVD Question Bank
Lecture 29 - Basics of Nano-Structured Material Synthesis: Part-I
Lecture 30 - Basics of Nano-Structured Material Synthesis: Part-II
Lecture 31 - Undesirable CVD: Bulb-Blackening
Lecture 32 - Undesirable CVD: Moolten Salt Deposition in Combustion Systems
Lecture 33 - Undesirable CVD: Hot Corrosion
Lecture 34 - Multi-component Transport Fundamentals: Assumptions and Control Volumes
Lecture 35 - Multi-component Transport Fundamentals: Mass Conservation Equations
Lecture 36 - Multi-component Transport Fundamentals: Momentum and Energy Conservation
Lecture 37 - Multi-component Transport Fundamentals: Entropy conservation
Lecture 38 - Multi-component Transport Fundamentals: Constitutive Laws for Mass and Momentum
Lecture 39 - Multi-component Transport Fundamentals: Constitutive Laws for Energy and Entropy