Within the Institute, a modern cleanroom up to class 1 exists, enabling the application of various modern nanostructure technologies, for example molecular beam epitaxy (MBE), ion beam deposition (IBD). Different other deposition technologies and etching processes in combination with optical and electron beam lithogrophy provide a key feature for the development of optoelectronic devices and nanosystem applications.
In 2 Jahren, wenn die ersten Bachelor Absolventen in den Nanostrukturwissenschaften zu erwarten sind, also im Wintersemester 2012/13 startet der Studiengang Master of Science Nanostrukturwissenschaften.
Research on the investigation of novel photonic and electronic semiconductor materials and phenomena and the development of devices for key areas such as internet communication, data storage, displays, illumination, environmental monitoring and life sciences.
The research mission of the institute is to explore how chemical processes work on a microscopic scale, to develop novel methods and systems for micro and nanochemistry, and to apply this knowledge to develop novel intelligent microsystem devices, e.g. for lab-on-chip technology.
The focus of our research is to synthesize molecules whose ability to selectively recognize biomolecular targets is improved over that of unmodified biomolecules and to employ this capability to develop new functional entities. The molecular recognition phenomena of interest include the recognition of transition states, i.e. the generation of new biomimetic catalysts.
(German language site) The center's objectives are technology and know-how transfer; to develop dedicated solutions and materials; to develop market-oriented innovative products by utilising the know-how of the partners