Lectures related to Thin Film Growth: Atoms Arrival and Adhesion

Stress in Thin Films: Film Growth and Microfabrication

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

PVD 7: Other Techniques

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

Thin-Film Processing

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

Physical Vapor Deposition: Basics and Applications

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

Film Growth: Growth Modes and Crystal Structure

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

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.

Thin Films: Growth and Interfaces

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

Thin-Film Processing: Plasma Deposition

Explores plasma-enhanced chemical vapor deposition for thin-film processing and its impact on film properties and material quality.

Precious Metals: Overview and Properties

Covers the overview, properties, and separation of precious metals like gold, silver, platinum, and more.

Thin-Film Processing: Deposition Techniques

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

Sputtering: Plasma Formation and Thin Film Deposition

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

Crystal Structures: Cubic Lattices & Miller Indices

Explores cubic crystal structures, coordination numbers, and packing factors in metals and alloys.

MEMS & Cleanroom: Thin Material Layers and Vapor Creation

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

Catalysis for H2 Production

Explores catalytic processes for hydrogen production, focusing on partial oxidation and catalyst deactivation due to carbon formation.

Deformation and Creep in Materials

Explores deformation, creep, material properties, mechanical tests, ceramics, polymers, metals, and atomic bonds.

Thin Films: Deposition and Growth

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

Micro and Nanofabrication for Optomechanics

Explores the importance of micro- and nanofabrication in optomechanics, covering key processes and challenges in device fabrication.

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.

Self-Diffusion in Metals

Explores self-diffusion in metals, covering temperature, pressure, crystal structures, diffusion coefficients, atomic jumps, and the Arrhenius equation.

Sputtering: Film Growth and Control Parameters

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