Raman spectroscopyGlycerol solutionsRaman spectra of neat glycerol, neat D 2O, and glycerol/D 2O solutions with glycerol mole fractions ( X G) of 0.00, 0.02, 0.12 and 0.32 and 1.00 are presented. Vibrational assignments are discussed for the bands observed in the 1000–1600 and 2000–3700 ...
Thedoi:10.1080/00387018608069229I. SavatinovaE. AnachkovaR. NikolaevaTaylor And FrancisSpectroscopy Letters
Then, their metabolic activity was determined by 5-cyano-2,3-ditolyl tetrazolium chloride combination flow cytometry (CTC-FCM) and D2O-labeled Raman spectroscopy, respectively, at both population and single cell levels. The results showed that almost all strains could enter VBNC state irradiated by...
Low-temperature conformation of Mg2+-poly(U) in D2O as revealed by IR and Raman spectroscopy and by normal-mode analysis treatment 来自 Wiley 喜欢 0 阅读量: 21 作者:Jagdeesh,Bandekar,Georg,Zundel DOI: 10.1002/bip.360240720 被引量: 8
Eugene HuangInstitute of Earth Sciences, Academia Sinica, Taipei, 11529, TaiwanJohn Wiley & Sons, LtdJournal of Raman SpectroscopyRaman Study of D2O at High Pressures in a Cubic Zirconia Anvil Cell[J] . Ji‐anXu,Hsueh‐wenYeh,JosephYen,EugeneHuang.J. Raman Spectrosc. . 1998 (11)...
Research Progress in the Medical Application of Heavy Water, Especially in the Field of D2O-Raman Spectroscopydoi:10.7150/ijms.73150Xin WangNai-meng LiuYa-fei ZhaoFan YangZi-jia ZhuDong SongInternational Journal of Medical Sciences
Raman spectroscopyHigh pressure experiments were performed on D2O ice VII using a diamond anvil cell in a pressure range of 2.0–60 GPa at room temperature. In situ X-ray diffractometry revealed that the structure changed from cubic to a low symmetry phase at approximately 11 GPa, based ...
重水分子结构拉曼分光计温度效应van'tHoff方程结合能In situ Raman spectroscopy is employed to study the effects of temperature on D2O water structure up to 573K at IOMPa. With increasing temperature, the O-D stretching band moves to the higher wavenumber, implying that higher temperature can result...
Polycrystalline hydrate, deuterate and partially deuterated samples were examined at 90 and 298 K in the OH and OD internal region by infrared spectroscopy in order to explore the structural environment of water of hydration. Vibrations in the OH stretching region were attributed to (H2O)I and (...
In situ Raman spectroscopy is employed to study the effects of temperature on D2O water structure up to 573 K at 10 MPa. With increasing temperature, the O–D stretching band moves to the higher wavenumber, implying that higher temperature can result in the break of hydrogen bonding. According...