Explores thin film preparation, growth mechanisms, organic film considerations, and deposition techniques in electronics.
Delves into the impact of human activities on nitrogen deposition in ecosystems and the role of atmospheric acidity.
Explores processes at the snow-atmosphere interface and extreme snow falls in the Swiss Alps.
Explores Physical Vapor Deposition (PVD) techniques for thin film deposition in nanofabrication, addressing issues like metal diffusion and proper metal contact.
Covers mass transport in the boundary layer, gas transfer to the substrate, film growth rate calculation, and experimental results.
Explores the evolution, properties, and applications of Transparent Conductive Oxides, including challenges in optoelectronic applications and strategies for reducing surface reflections in solar cells.
Delves into thin film growth, adhesion, crystal structure, and stresses.
Explores dislocation motion, thin film growth models, and interface nature in modern technology.
Explores Physical Vapor Deposition techniques, including vapor creation and flux towards the substrate in micro and nanofabrication.
Explores growth modes in film growth and crystal structure determination based on materials used.
