Skip to main content
Graph
Search
fr
en
Login
Search
All
Categories
Concepts
Courses
Lectures
MOOCs
People
Practice
Publications
Startups
Units
Show all results for
Home
Lecture
Chemical Vapour Deposition Basics
Graph Chatbot
Related lectures (32)
Chemical Vapour Deposition: Micro and Nanofabrication
Explores Chemical Vapour Deposition for micro and nanofabrication processes.
Thin-Film Processing
Explores thin-film processing techniques, including CVD, ALD, and plasma interactions, emphasizing their advantages and applications.
Thin Film Growth: Mechanisms and Applications
Explores thin film growth mechanisms, organic thin film considerations, deposition techniques, and patterning for electronic devices.
PVD 7: Other Techniques
Explores ion plating, MBE, and PLD techniques in thin film fabrication.
Thin-Film Processing: Plasma Deposition
Explores plasma-enhanced chemical vapor deposition for thin-film processing and its impact on film properties and material quality.
Thin Films: Growth and Interfaces
Explores dislocation motion, thin film growth models, and interface nature in modern technology.
Thin-Film Processing: Deposition Techniques
Explores thin-film processing techniques, focusing on chemical vapor deposition advantages, growth modes, ALD, plasma role, and discharge initiation.
Chemical Reaction Engineering: Conversion and Reactor Sizing
Explores the algorithm for solving chemical reaction engineering problems, focusing on conversion and reactor sizing.
Thin Films: Deposition and Growth
Explores thin film preparation, growth mechanisms, organic film considerations, and deposition techniques in electronics.
Conversion and Reactor Sizing
Explores conversion, reactor sizing, and series reactors with practical examples.
Film Growth: Growth Modes and Crystal Structure
Explores growth modes in film growth and crystal structure determination based on materials used.
Chemical reaction engineering: reactor design
Explores the Chemical Reaction Engineering algorithm applied to isothermal reactor design, with examples on SO2 oxidation and N2O4 decomposition.
Fabrication extended: Deposition
Explores the process of deposition, thermal oxidation, and chemical vapor deposition techniques.
Chemical Reaction Engineering: Reactor Design
Explores chemical kinetics, reactor design, and critical thinking in chemical reaction engineering.
Deposition: Physical Vapor Deposition (PVD) Techniques
Explores Physical Vapor Deposition (PVD) techniques for thin film deposition in nanofabrication, addressing issues like metal diffusion and proper metal contact.
Reactor Technology: Reactivity Variations and Control
Explores reactivity variations in reactor technology, covering short-term, medium-term, and long-term effects, means of control, and consequences.
Nuclear Reactor Criticality Analysis
Covers the formalism and criticality analysis of nuclear reactors, focusing on mathematical equations and reactor stability.
Chemical Reaction Engineering
Covers the analytical derivation of various design models and reactor sizing.
Reactor Technology: Reactivity Variations and Control
Explores reactivity variations, control mechanisms, and the impact of the Doppler effect on reactor temperature.
Chemical Reaction Engineering: Algorithmic Approach
Explores problem-solving algorithms for chemical reactor design and analysis, emphasizing the CRE approach and various reactor configurations.
Previous
Page 1 of 2
Next
