Nuclear Magnetic Resonance Spectrometer (NMR)
NMR is an abbreviation for Nuclear Magnetic Resonance. An NMR instrument allows the molecular structure of a material to be analyzed by observing and measuring the interaction of nuclear spins when placed in a powerful magnetic field.
For the analysis of molecular structure at the atomic level, electron microscopes and X-ray diffraction instruments can also be used, but the advantages of NMR are that sample measurements are non-destructive and there is less sample preparation required.
Fields of application include bio, foods, and chemistry, as well as new fields such as battery films and organic EL, which are improving and developing at remarkable speed. NMR has become an indispensable analysis tool in cutting-edge science and technology fields.
NEWS
- 2019/01/17
- 2019/01/17
- 2019/01/17
- 2019/01/17
- 2019/01/11
CASE STUDY
Synthetic Organic Chemistry Laboratory (Kobayashi Lab), Department of Chemistry, School of Science, University of Tokyo
Analysis Center (CRL), Central Research Laboratories, DIC Corporation
Toray Research Center, Inc. (Shiga)
Wako Pure Chemical Industries,Ltd. Reagent Research Laboratories (Tokyo)
The National Institute of Health Sciences
Nagoya University Research Center for Materials Science
Tohoku University Research and Analytic Center for Giant Molecules
Development secrets:The story behind the birth of the world's smallest high performance spectrometer
NMR data processing software
NMR data processing and spectrum analysis
NMR peripherals/
consumables
automatic sample changers, low temperature control units, and more peripherals and consumables
User stories
Introduction of user experience with JEOL NMR/ESR products
NMR basic knowledge/history
Useful NMR knowledge and history
CH-NMR-NP
NMR Databese of natural product
Liquid/solid state NMR probes
Liquid/solid state NMR probe line-up for variety of applications
NMR application note
NMR application note and technical information
quantitative NMR
About quantitative analysis using the NMR