拉曼光谱是一种分子振动光谱技术,具有分子水平的肿瘤检测和诊断能力。
Raman spectroscopy is a molecular vibrational spectroscopic technique that is capable of optically probing the biomolecular changes associated with diseased transformation.
在对水中生物分子研究的技术方法中,测量生物分子振动光谱是研究分子结构及其变化的重要手段之一。
Measuring the molecule's vibration spectrum is one of the most important means that study on molecule structures, interaction and reaction.
那么分子的振动,到了红外光谱的波段,它们通常大约有1,000个波数。
So molecular vibrations, you know, you've taken IR spectra they're typically on the order of 1,000 wave Numbers or so.
目的为了验证草酰氟中性分子(FCO)2光谱分析的结果和进一步研究2种构像的振动模式。
Aim To validate spectrum analysis of oxalyl fluoride neutral molecule (FCO) 2 and study vibrational mode of the two configuration.
然后从理论角度描述了近红外光谱的分子振动基础和有机化合物的近红外光谱特征。
Then the molecule vibration foundation of the near infrared spectrum and the spectrum character of the organic compound were theoretically described.
拉曼光谱是一种分子散射光谱,通过与分子相互作用的光子产生的表征分子振动或转动能级差的特征频移,来反映分子结构或成分的信息。
Raman spectrum is a kind of molecule scattering spectroscopy, which is characterized by the frequency excursion that caused by interactions of molecule and photon to show the information of molecule.
拉曼显微光谱根据基于分子振动特征的光谱指纹来检测亚细胞成分。
The Raman micro-spectroscopy used in this study detects sub-cellular components using the spectral fingerprints of molecules based on their characteristic vibrations.
本文用力学-振动光谱研究了硬弹性聚丙烯(HEPP)晶区和非晶区分子链在拉伸时取向的变化。
The orientation behaviour of molecular chains of hard elastic polypropylene(HEPP) film was investigated on the uniaxial stretching by polarized IR Vibration-Mechanical Spectroscopy.
红外吸收光谱主要与分子振动和分子结构有关。
The infrared spectrum is mostly dependent on the molecular vibration and molecular structures.
比较两种光谱技术得到的实验结果发现,两种光谱技术在反映分子振动模式上所得的结果是一致的。
Comparing the spectrums of IR and THz, it was found that the two kinds of spectroscopy are consistent in revealing the molecular vibrational mode.
比较两种光谱技术得到的实验结果发现,两种光谱技术在反映分子振动模式上所得的结果是一致的。
Comparing the spectrums of IR and THz, it was found that the two kinds of spectroscopy are consistent in revealing the molecular vibrational mode.
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