High-resolution analytical techniques are essential for both development and introduction of new nanotechnologies and thin-film technologies as well as for the integration of advanced materials into high-tech products. Nanoanalysis is more and more needed for process and materials characterization during manufacturing of nanostructured systems and devices as well as for the understanding of nano-scale microstructure in materials. Therefore, research and development in the field of physical analysis increasingly focused on the study of thin films and nanostructures.
Application-specific developments show often that the combination of several analysis techniques is needed to ensure both process control in nanotechnology as well as performance and reliability of new products. In this course, we will explain the need and use of analytical techniques for process control and for quality assessment as well as the application of machine learning algorithms.
Numerous new developments in the field of nanoanalysis allow the imaging as well as the structural and chemical characterization of structures in the range < 100 nm, down to atomic dimensions. The suitability of a technique for research and development or for process control in manufacturing is determined by the capabilities and limits of the technique itself, particularly if the technique is destructive or non-destructive, but also from the time needed for data acquisition and data analysis (“time-to-data”).
The course will provide knowledge in the field of nanoanalysis. After a short survey, advanced techniques for the characterization of thin films, nanostructures and nanoparticles will be explained. New results from fundamental research will be presented, and application-specific solutions will be demonstrated as well. Challenges to nanoanalysis techniques in the industry will be an additional topic. Special examples for applied studies in micro-, nano- and optoelectronics as well as in the fields of renewable energies and lightweight construction will be demonstrated. Nanoanalytical studies at metallic, inorganic-nonmetallic and organic materials will be reviewed. As an integral part of the course, we are offering a practical half-day lab training in small groups in one of the following fields of research that should be chosen by the participant:
- scanning electron microscopy / focused ion beam technique
- micro- and nanomechanical characterization techniques
- techniques for particle analysis.
All lecturers are experienced experts in the field of physical and chemical analysis and are mentioned with their presentation.
The course is intended for individuals who wish to expand their knowledge in the field of nano-scale materials and nanoanalysis. The subjects covered in this course extend from fundamentals of materials science and analysis to the current nanotechnologies and challenges in industry. Scientists, engineers and technicians working in industry, research and education, who are interested to extend their knowledge in nanoanalysis, will benefit from this course.
Further information an the entire programm of the course can be found here.
If you have any questions, please do not hesitate to contact us at firstname.lastname@example.org