Materials Behaviour in Reduced Dimensions

Objective

Teaching goals: to learn which materials are used in electronics, microelectronics and optoelectronics and why to understand how materials properties change when their external dimensions approach the micro- and nanoscale to grasp the materials and processing issues involved in miniaturized electronic, mechanical and optical systems to be exposed to state of the art technologies for fabrication and characterization of such systems

Content

Part I: Materials for Microelectronics and MEMS/NEMS This lecture focuses on materials issues in microelectronics and microelectromechanical systems (MEMS). Starting from an introduction of the topic (describing the hierarchy of electronic devices such as base materials, interconnection, microelectronic and optoelectronic components, multichip-modules), various state of the art fabrication routes of microcomponents will be described and illustrated with specific examples (lithographic tools for the micro- and nanoscale, how does a microphotoresist work). The core of the course is the materials behavior in small dimensions. Focus will be laid on scaling of electronic and mechanical properties, thin film mechanics, device reliability and integration issues when dissimilar materials are joined. Advanced characterization techniques specific to microcomponents will be presented. Finally possible future solutions to further miniaturization, such as carbon nanotubes or 3D integration molecular electronics, will be critically discussed. Excursions to microelectronic companies are part of the course. Part II: Materials for Optoelectronics This lecture starts with an outline of the photophysical and photochemical base processes in molecules and solid state systems (polymers, hybrid systems, crystals). Development and application of novel materials for optical telecommunication, optical information processing, optical data storage and data display are then described: - how CD-R/DVD-R/DVD-ROM/DVD-RW are made and how do they work - what is ultra-high density optical storage of data - how do modern displays work - how do laser printers and ink jet printers work

Resources