ライフサイエンスコーパス: polar molecule

1 ver, neither method can easily separate very polar molecules.

2 0% of attractive interactions), even for the polar molecules.

3 studies exist of their interaction with non-polar molecules.

4 reshold laws for the scattering of fermionic polar molecules.

5 emical reaction rates in an ultracold gas of polar molecules.

6 that can conduct a variety of medium-sized, polar molecules.

7 ld dense gas of potassium-rubidium (40K87Rb) polar molecules.

8 , diffusion-based passage of small (<600 Da) polar molecules.

9 harmacokinetic profiles of small, ionic, and polar molecules.

10 ophobic environment which cannot accommodate polar molecules.

11 c poling on the adsorption/desorption of two polar molecules, acetic acid and 2-propanol, and one non

12 ns in the transport of water and other small polar molecules across cell membranes in animals and pla

13 ay for the flux of ions and other charged or polar molecules across cellular membranes.

14 bsorption enhancers to promote absorption of polar molecules across membrane surfaces.

15 oid nucleus affects the ability to transport polar molecules across membranes.

16 h-throughput screening of a library of small polar molecules against Mycobacterium tuberculosis led t

17 Polar molecules align in electric fields when the dipole

18 Mcfp3s are highly polar molecules and contain up to 28 mol % Dopa, which r

19 2) Ability to force all charged/polar molecules and especially free ions within and arou

20 lts in an energy barrier for the approach of polar molecules and facilitates the formation of Ng addu

21 molecules indicate that interactions between polar molecules and ferroelectric surfaces are dominated

22 lationship between the chemical structure of polar molecules and their membrane location, the behavio

23 Polar molecules are desirable systems for quantum simula

24 xpression in the brain in vivo, should these polar molecules be made transportable through the blood-

25 ilar to those resulting from the mutations.A polar molecule binding site was also created by truncati

26 We demonstrate that ions or polar molecules can be driven by fluctuating Coulombic f

27 hermore, the large electric dipole moment of polar molecules can be tuned using an external electric

28 ange dipole-dipole forces acting between two polar molecules can result in the self-assembly of nonco

29 made of electrically neutral (polar and non-polar) molecules, conductivity increases on irradiation.

30 presence or an explanation as to how such a polar molecule could exit the plant cell and what physio

31 this intriguing phenomenon on small ions and polar molecules driven on the surfaces of carbon nanotub

32 ias-field technique may enable using trapped polar molecules for precision measurement and quantum in

33 -orbit coupling in two-dimensional ultracold polar molecule gases.

34 The polar molecules have a permanent electric dipole moment,

35 surfaces with induced polarity and nonpolar/polar molecules have been investigated.

36 he confining surfaces, with those containing polar molecules having their electric dipoles aligned pa

37 n we propose is general and suitable for any polar molecule in the presence of an electric field.

38 branes (PEMs) selectively transport ions and polar molecules in a robust yet formable solid support.

39 Polar molecules in an optical lattice provide a versatil

40 With the production of polar molecules in the quantum regime, long-range dipola

41 hin 20 min and excellent resolving power for polar molecules including many isobaric metabolites.

42 way of introducing macromolecules and small polar molecules into the cytoplasm, and may have applica

43 ane (OM) that is highly impermeable to small polar molecules, making the bacteria intrinsically resis

44 ystal structure suggests that binding of non-polar molecules may be essential to the physiological fu

45 creating a long-lived ensemble of ultracold polar molecules may require confinement in a two-dimensi

46 nally, there is weak molecular adsorption of polar molecules (methylene blue) on the ta-C surface.

47 elded desorption pre-exponentials of the two polar molecules more than 11 orders of magnitude lower t

48 y difluorotoluene deoxynucleoside (F), a non-polar molecule of the same size and shape which lacks hy

49 Ultracold polar molecules offer the possibility of exploring quant

50 Charge impurities and polar molecules on the surface of dielectric substrates

51 es the activation energies for reactions, of polar molecules on the surfaces of ferroelectric materia

52 Here we use dipolar interactions of polar molecules pinned in a three-dimensional optical la

53 The least polar molecule PY diffuses deeply into and interacts ext

54 erimentally demonstrate laser cooling of the polar molecule strontium monofluoride (SrF).

55 That is, they are able to separate polar molecules such as a polar stationary phase and non

56 They can solubilize complex polar molecules such as cyclodextrins and glycopeptides.

57 ovide insight into the export of other large polar molecules such as DNA and proteins.

58 ar faces inward in nonpolar solvents to bind polar molecules such as sugar derivatives.

59 ectric devices or as active surfaces to bind polar molecules, such as toxic gas, methanol, or DNA.

60 This device allows uncharged polar molecules, such as water, to rapidly pass through

61 ding the vaginal delivery of larger and more polar molecules that currently require parenteral admini

62 Fluorocarbons are lipophobic and non-polar molecules that exhibit remarkable biocompatibility

63 ong-field ionization studies in polar vs non-polar molecules that have the same chemical composition.

64 Polar molecules that permeate across the outer membrane

65 ue to penetrability problems of these highly polar molecules that possess sulfonamide moieties.

66 Seven representative polar molecules that preferentially docked to the polar

67 tonation [M+H](+) of unpolar as well as some polar molecules the homogeneous DBDI can be used to ioni

68 a wide range of sizes: from 500-Da targeted polar molecules to 150,000-Da tagged immunoglobulins int

69 Here we use cold polar molecules to measure the electron EDM at the highe

70 ment factors were obtained for smaller, more polar molecules using the 1-hexyl-3-methylimidazolium FA

71 To evaluate potential binding sites for non-polar molecules, we screened a number of hydrophobic lar

72 pported through simulation analysis in which polar molecules were bound most strongly to MOF-199, ref

73 The two polar molecules were found to adsorb significantly more

74 by progressively assembling amphiphilic and polar molecules, which form an elastic structure that ca

75 A quantum gas of ultracold polar molecules, with long-range and anisotropic interac

76 Ultracold polar molecules, with their long-range electric dipolar