Nanotechnology Research Laboratories

 

Showing results 21 - 30 of 33 of research organizations in Netherlands:

 
In the course of this master programme, you will acquire fundamental and extensive theoretical and practical knowledge of all disciplines related to design, laboratory and manufacturing techniques. Upon graduation, you will have mastered the skills needed to come up with innovative product-market combinations and production processes. Meanwhile, you will have an entrepreneurial, creative and inquisitive mindset.
The research program of the Feringa group at the University of Groningen in the Netherlands is focussed on synthetic organic chemistry with a major part of the research is directed towards nanotechnology and novel functional materials, like molecular switches and motors.
The Top Master programme in Nanoscience aims to train the cutting-edge scientists of the future. This is achieved by offering a challenging interdisciplinary programme and by admitting only very talented and motivated students. The courses are taught by top international scientists, and a large part of the programme consists of actually conducting scientific research, alongside world-class scientists, using the state-of-the-art facilities of the Zernike Institute.
Within the NanoLab NL program, the infrastructure in Groningen is designed to function as the Dutch center for bottom-up (bio)molecular electronics and functional (bio)molecular nanostructures, and for the development of nanostructures based on supramolecular interactions and molecular lithography.
The classic materials triangle concerns an integrative approach in the three aspects of structure, property and chemical composition. The Zernike Institute for Advanced Materials adds an extra dimension to this traditional view by an unconventional linkage to the field of biomolecular sciences, which includes the design aspects as well.
For many years, the group's research theme has been the resonant interaction of electromagnetic waves, or photons, with condensed matter, consisting in most cases of organic molecules. Photons can be simply absorbed by matter, they can flip spins in a magnetic field in Electron Paramagnetic Resonance (EPR), or excite the electron cloud in optical absorption experiments. However, many of the effects they look at are more complex, nonlinear. They study, for example, the effect of two frequencies on spin echoes in EPR, the emission of light at wavelengths different from that of the excitation laser (fluorescence), and the effect of spin resonance on this emission (optically detected magnetic resonance, ODMR), or phenomena involving two or more photons, such as spectral hole-burning.
The Center for Brain-Inspired Nano Systems (BRAINS) combines core expertise in nanoscience and nanotechnology with expertise from computer science, applied mathematics, artificial intelligence and neuroscience, to lay the scientific foundations for a new generation of powerful, energy-efficient computing hardware.
The group investigates photonic band gap crystals, Anderson localization and diffusion of light, random lasers and related phenomena.
MESA+ institute for nanotechnology, trains graduate students and PhD-students and conducts research in the fields of nanotechnology, microsystems, materials science and microelectronics. Unique of MESA+ is its multidisciplinary composition. Many research groups of the faculties Electrical Engineering, Mathematics, Computer Science (EEMCS) and Science and Technology (S&T) participate in the MESA+ institute.
The MSc Nanotechnology is a 2 year programme for anybody having a BSc degree in any applied science. The educational programme is offering you a multidisciplinary approach to this new emerging field, forming an excellent preparation for a scientific career both at the university or in industry.