| 1. | Pulse fourier transform nmr spectroscope
脉冲傅里叶变换核磁共振波谱仪 |
| 2. | Persistent wave nmr spectroscope
边疆波核磁共振波谱仪 |
| 3. | High - resolution nmr spectrometer
高分辨核磁共振波谱仪 |
| 4. | Two - dimensional nmr spectroscopy
二维核磁共振波谱学 |
| 5. | Pulse type nmr spectroscope
脉冲核磁共振波谱仪 |
| 6. | " for his contributions to the development of the methodology of high resolution nuclear magnetic resonance spectroscopy
Richard r . ernst在发展付立叶变换核磁共振波谱方面的重要贡献 |
| 7. | Applications of infrared spectroscopy and nuclear magnetic resonance spectroscopy in the studies of the structure of chitin and chitosan
红外光谱与核磁共振波谱在甲壳素结构研究中的应用 |
| 8. | A method for the determination of fluorine in tantalum and niobium production waste liquid by ( superscript 19 ) f - nmr technology was developed
摘要建立了一种核磁共振波谱测定钽、铌生产的废液中氟含量的方法。 |
| 9. | Pr can be used not only to identify the differences of the pathological from the normal , but also to find which bio - fingerprints result in such differences , thus supplying valuable information for diagnosis
模式识别与生物核磁共振波谱的结合,已经发展成为代谢组学研究的关键技术,甚至被称为基于核磁共振的代谢组学。 |
| 10. | Nuclear magnetic resonance ( nmr ) and magnetic resonance imaging ( mri ) technologies are widely used for physical , chemical , material and biomedical analysis and medical diagnosis
摘要核磁共振波谱和核磁共振成像技术( mri )已经成为一种广泛应用于物理、化学、材料、生物医学等领域的重要研究工具和医疗诊断手段,但是仪器复杂、价格昂贵。 |
