Lectures related to Deposition: Physical Vapor Deposition (PVD) Techniques

Thin-Film Processing

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

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.

Film Growth: Growth Modes and Crystal Structure

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

MEMS & Cleanroom: Thin Material Layers and Vapor Creation

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

Physical Vapor Deposition: Basics and Applications

Explores Physical Vapor Deposition techniques, including vapor creation and flux towards the substrate in micro and nanofabrication.

Thin-Film Processing: Deposition Techniques

Explores thin-film processing techniques, focusing on chemical vapor deposition advantages, growth modes, ALD, plasma role, and discharge initiation.

Thin Film Growth: Mechanisms and Applications

Explores thin film growth mechanisms, organic thin film considerations, deposition techniques, and patterning for electronic devices.

Sputtering: Film Growth and Control Parameters

Covers the sputtering process, parameters influencing film quality, and advantages over thermal evaporation.

Thin Films: Deposition and Growth

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

Stress in Thin Films: Film Growth and Microfabrication

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

Physical Vapor Deposition: Principles and Applications

Explores the principles and applications of Physical Vapor Deposition (PVD) in microfabrication technologies, covering topics like metal microstructure creation and sputtering efficiency.

Sputtering: Plasma Formation and Thin Film Deposition

Covers sputtering, plasma creation, and thin film deposition processes.

Fabrication extended: Deposition

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

Thin Films: Deposition and Patterning

Explores thin film preparation, growth mechanisms, and patterning techniques for organic electronic devices.

Chemical Vapor Deposition: Oxide Formation and ALD

Explores CVD processes for oxide formation and ALD in micro and nanofabrication.

Thin Film Growth: Atoms Arrival and Adhesion

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

Sputtering: Ion Target Interactions

Examines ion-target interactions in PVD sputtering processes, covering compound deposition, surface damage, and factors influencing target ejection rates.

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.

Thin Films: Growth and Interfaces

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