The Technical University of Ilmenau intends to expand its technological equipment. For this purpose, a nuclear magnetic resonance (NMR) spectrometer according to the current state of development with highest spectral and time resolution with a magnetic field of at least 11.74 T (corresponds to a proton frequency of 500 MHz) is planned for determining the molecular structure of organic and organometallic materials, polymers and biochemical and biological samples in liquid phase. A high degree of automation and long-term stability should enable extensive, automated measurements on static molecular systems with maximum reproducibility on the one hand and flow experiments on dynamic systems such as reaction mixtures on the other. The spectrometer system shall also be suitable for temperature-dependent characterization of at least -40 °C to at least +150 °C over a period of at least 24 hours with alternating recorded frequency ranges.

The Technical University of Ilmenau intends to expand its technological equipment. For this purpose, a nuclear magnetic resonance (NMR) spectrometer according to the current state of development with highest spectral and time resolution with a magnetic field of at least 11.74 T (corresponds to a proton frequency of 500 MHz) is planned for determining the molecular structure of organic and organometallic materials, polymers and biochemical and biological samples in liquid phase. A high degree of automation and long-term stability should enable extensive, automated measurements on static molecular systems with maximum reproducibility on the one hand and flow experiments on dynamic systems such as reaction mixtures on the other. The spectrometer system shall also be suitable for temperature-dependent characterization of at least -40 °C to at least +150 °C over a period of at least 24 hours with alternating recorded frequency ranges.