A non-invasive and non-destructive research tool that provides detailed information about molecules and body fluids!
Magnetic resonance is a physical effect used in electron paramagnetic resonance (EPR) spectroscopy and nuclear magnetic resonance (NMR) to study materials at the atomic level and obtain detailed information about molecular structures. Magnetic resonance spectroscopy is applied in chemistry, biology, and materials science, serving both research and industrial purposes. For example, it plays a crucial role in elucidating molecular structures and dynamic behaviors in structural chemistry, which is extremely important in drug development and materials science. Furthermore, magnetic resonance imaging (MRI) and time-domain nuclear magnetic resonance (TD NMR) are also applications of magnetic resonance. MRI provides detailed images of internal organs and tissues non-invasively, aiding in the early detection and management of diseases. TD NMR offers insights into molecular structures, dynamics, and interactions, and is utilized in quality control and structural analysis in fields such as pharmaceuticals, polymers, the food industry, and environmental science. *For more detailed information, please refer to the related links. Feel free to contact us for further inquiries.*
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Bruker Biospin Group designs, manufactures, and sells instruments based on magnetic resonance technology, including world-class nuclear magnetic resonance (NMR) and electron paramagnetic resonance (EPR) spectrometers. They also develop preclinical imaging systems with single and multiple modes using magnetic resonance imaging (MRI), positron emission tomography (PET), single-photon emission computed tomography (SPECT), computed tomography (CT), and magnetic particle imaging (MPI) technologies. Bruker Biospin provides the unique capabilities of NMR to determine the structure, dynamics, and functions of specific molecules to customers in academic research institutions, government agencies, industry, and pharmaceutical companies. In particular, applications in structural proteomics, drug discovery, pharmaceutical and biotechnology research and production, and food and materials science are expected to be promising.
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