ライフサイエンスコーパス: optical rotation

1 is assigned computationally according to its optical rotation.

2 crystals allowed for a measurement of their optical rotation.

3 lysis to aglycones, antioxidant capacity and optical rotation.

4 ntitative correlations between structure and optical rotation.

5 ass losses, amorphous in nature and negative optical rotations.

6 resultant chiral polymers exhibit very large optical rotations.

7 S,19S,20S,21R configuration by comparison of optical rotations.

8 rcular dichroism spectra and of the specific optical rotations.

9 Optical rotation, a form of optical activity, is a pheno

10 tamaterials that provide near dispersionless optical rotation across a broad band of frequencies from

11 The optical rotation [[alpha]D +22.8 (c 0.50, CHCl3)] obtain

12 on this material confirmed that the reported optical rotation [[alpha]D 0 (c 0.50, CHCl3)]47 was biog

13 A combination of HPLC, optical rotation and CD spectroscopy was employed to dis

14 concerted use of transparent spectral region optical rotation and circular dichroism in determining t

15 hiral HPLC enabled their characterization by optical rotation and circular dichroism spectroscopy.

16 king but represents the long-sought specular optical rotation and indicates a new intertwined order.

17 calculations of transparent spectral region optical rotation and of circular dichroism has recently

18 Here we report optical rotation and polar Kerr measurements in CsV(3)Sb

19 making the OV with large TC not suitable for optical rotation and short-distance communication.

20 These methods were used to assign the optical rotation and to prepare milligram quantities of

21 This enabled the measurement of their optical rotations and CD spectra.

22 Optical rotations and characteristic (1)H NMR data for t

23 culation of both transparent spectral region optical rotations and electronic circular dichroism (CD)

24 Optical rotations and rotatory strengths are calculated

25 sicochemical studies (UV-vis absorption, CD, optical rotation, and cyclic voltammetry) of the [7]heli

26 concentration, aggregation number, polarity, optical rotation, and partial specific volume.

27 concentration, aggregation number, polarity, optical rotation, and partial specific volume.

28 This approach links chemical structure with optical rotation angle and provides a quantitative measu

29 that atoms and functional groups make to the optical rotation angle and, more generally, to the molec

30 The optical rotation angle is determined by measuring the ph

31 to determine the atomic contributions to the optical rotation angle is reported.

32 pound, polygonapholine should not exhibit an optical rotation as reported.

33 Remarkably, the sign of the optical rotation at 1.54 microm (that is, at wavelengths

34 n of trichoflectin and deflectin-1a based on optical rotation, CD spectra, and X-ray crystallography.

35 hed by comprehensive spectroscopic analyses, optical rotations, chemical correlations with known sesq

36 on a combination of 1D and 2D NMR analysis, optical rotation, circular dichroism, and preparation of

37 A comparison of experimental and theoretical optical rotation, circular dichroism, and two-dimensiona

38 asis is on the evaluation of long wavelength optical rotation, consistent with quantum chemical compu

39 n of electronic circular dichroism (ECD) and optical rotation data of all possible stereoisomers, the

40 Comparison of the 1H and 13C NMR and optical rotation data of the resulting isomers with the

41 X-ray experiment in conjunction with NMR and optical rotation data, whereas the depside molecular str

42 on mechanism were further studied by NMR and optical rotation demonstrating that the reaction product

43 ts" from nanohelicoids should provide strong optical rotation due to alignment of helical axis with p

44 n certain physicochemical properties such as optical rotation, electrostatic potentials, and intermol

45 20) and for the first time gives the ECD and optical rotation for eusiderins B (2), G (25), L (23), a

46 rted by the ab initio prediction of positive optical rotation for the most stable conformer with an (

47 s to study the correspondence between CD and optical rotation for zwitterionic and protonated l-amino

48 Thus, the sign of the optical rotation had to be revised.

49 An isotropic component in the spontaneous optical rotation has also been reported and was interpre

50 The 5S,6R,9S isomer has NMR spectra and optical rotation identical with those of the natural com

51 Here we show that mechanical-optical rotation in the pulsar magnetosphere affects pol

52 ircular dichroism (CD) can be applied to the optical rotation in this case, but with some restriction

53 Hence the bandwidth of optical rotation is found to be relatively independent o

54 Strong nonlinear optical rotation is observed at key spectral locations,

55 Optical rotation measurements and chiral HPLC analysis d

56 ion with chiral compounds has been probed by optical rotation measurements during exposure to enantio

57 MR of the underivatised natural product, and optical rotation measurements of the hydrolysed sugar mo

58 e set of NMR data along with ECD spectra and optical rotation measurements of the synthesized natural

59 Precise optical rotation measurements play an important role in

60 al studies using circular dichroism (CD) and optical rotation measurements show that these collagen a

61 Nuclear spin optical rotation (NSOR) has been investigated as a magne

62 In both, pure optical rotation occurs in a frequency band between two

63 A calculation of the optical rotation of (R)-(-)-3-chloro-1-butene found a re

64 ecular weight of 1.35x10(6)Da and a specific optical rotation of +64 degrees (c 1.0, H2O), was isolat

65 neously acquired signals associated with the optical rotation of a laser beam traversing the atomic s

66 eport stable optical trapping and switchable optical rotation of nanoparticle (NP)-assembled micromot

67 r the odd-parity phonon mode and the magneto-optical rotation of scattered light from the even-parity

68 ergy conformers as 1315 cal/mol and gave the optical rotation of the low-energy conformer and the ave

69 We observed optical rotation of the plane of polarization of the sec

70 Lastly, we performed coherent optical rotations of a single collective nuclear spin ex

71 e calculation of transparent spectral region optical rotations of chiral molecules provides a new app

72 A comparison of the specific optical rotations of synthetic seimatopolides with those

73 ed fashion with large deviations in specific optical rotation (OR) and CD Cotton effect as a conseque

74 of a chiral molecule can be deduced from its optical rotation (OR) and/or its electronic circular dic

75 roism (ECD), and transparent spectral region optical rotation (OR) has revolutionized the determinati

76 ronic circular dichroism (ECD) spectrum, and optical rotation (OR) to experimental VCD, ECD, and OR d

77 The calculation of optical rotation (OR, [a](D)) for nonrigid molecules was

78 s and in particular electrical conductivity, optical rotation, pH and sugar composition revealed some

79 CHCl3/acetonitrile, and CD spectroscopy and optical rotation show that the resolved, crystalline mat

80 Optical rotation techniques are especially attractive be

81 Comparisons are made of the calculated optical rotation tensors of C(2v)-symmetric, polyaromati

82 isotropic components of 1 milliradian in the optical rotation that do not respond to applied magnetic

83 of the natural product, as well as matching optical rotations, the two compounds are believed to be

84 The ability of optical rotation to detect enantiospecific adsorption ar

85 rations were determined by comparison of the optical rotation value of the products with literature d

86 al studies comparing experimentally obtained optical rotation values, electronic circular dichroism s

87 nerating a new class of materials with large optical rotations, various arylamines were condensed wit

88 The effect of conformation on the optical rotation was confirmed by a study of the tempera

89 By comparison of optical rotation, we assign naturally occurring 3-amino-

90 erometric detection and in-line detection of optical rotation with an in-line laser polarimeter for a

91 tural material is evaluated by comparing its optical rotation with that of synthetic material.

92 )-12 were confirmed by a comparison of their optical rotations with those of the compounds synthesize