Lectures related to Catalyst Synthesis II: Deposition and Precipitation

Thin Films: Deposition and Growth

Explores thin film preparation, growth mechanisms, organic film considerations, and deposition techniques in electronics.

Powder Synthesis: Precipitation

Explores powder synthesis through precipitation methods, covering solid-vapor reactions, nucleation, crystal growth, and aggregation processes.

Film Growth: Growth Modes and Crystal Structure

Explores growth modes in film growth and crystal structure determination based on materials used.

PVD 7: Other Techniques

Explores ion plating, MBE, and PLD techniques in thin film fabrication.

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.

MEMS & Cleanroom: Thin Material Layers and Vapor Creation

Introduces MEMS, Cleanroom technology, thermal oxidation, vapor creation, and film formation principles.

The Crystalline Phase: Polymers and Crystallization

Delves into the crystalline phase of polymers, emphasizing crystallization processes and structural influences on melting temperatures.

Crystal Growth Mechanisms: Nucleation, Synthesis, Doping, and Applications

Explores crystal growth mechanisms, material synthesis, doping, and applications in crystallography and materials science.

Nanofabrication: Techniques and Challenges

Explores nanofabrication techniques, challenges, and the use of silicon wafers.

Fabrication extended: Deposition

Explores the process of deposition, thermal oxidation, and chemical vapor deposition techniques.

Thin Film Growth: Atoms Arrival and Adhesion

Delves into thin film growth, adhesion, crystal structure, and stresses.

Snow Formation: Crystal Growth and Precipitation

Explores snow crystal formation, vapor transport, cloud formation, and ice crystal growth.

Chemical Vapour Deposition: Micro and Nanofabrication

Explores Chemical Vapour Deposition for micro and nanofabrication processes.

Thermodynamics: Surface Energy & Crystal Growth

Explores surface energy, crystal growth, adhesion, and nucleation theories in thermodynamics and materials science.

Thin-Film Processing

Explores thin-film processing techniques, including CVD, ALD, and plasma interactions, emphasizing their advantages and applications.

Stress in Thin Films: Film Growth and Microfabrication

Examines stress in thin films, including uniform distribution and intrinsic factors, within the context of microfabrication.

Snow Processes at Snow-Atmosphere Interface

Explores processes at the snow-atmosphere interface and extreme snow falls in the Swiss Alps.

Thin Films: Growth and Interfaces

Explores dislocation motion, thin film growth models, and interface nature in modern technology.

Gas Transport and Film Growth Rate

Covers mass transport in the boundary layer, gas transfer to the substrate, film growth rate calculation, and experimental results.

Thin-Film Processing: Removal and Deposition

Explores thin-film removal and deposition techniques in CMOS technology, covering wet etching, dry etching, chemical mechanical polishing, and thin-film deposition methods.