ライフサイエンスコーパス: intermolecular force

1 ning the balance of attractive and repulsive intermolecular forces.

2 substrate, which in turn changes the lateral intermolecular forces.

3 en bonds play an essential role in directing intermolecular forces.

4 , polar, and van der Waals-London dispersion intermolecular forces.

5 ture dominate the pressure dependence of the intermolecular forces.

6 functions requires quantitative knowledge of intermolecular forces.

7 ple synthetic subunits held together by weak intermolecular forces.

8 trostatic interactions, and other long-range intermolecular forces.

9 rs are preorganized by the cage through weak intermolecular forces.

10 nsition was achieved by subtly adjusting the intermolecular forces.

11 , has undergone a dramatic development as an intermolecular force analogous to hydrogen bonding (HB).

12 The assemblies are held together by weak intermolecular forces and are dynamic: they form and dis

13 that result depend on the interplay between intermolecular forces and the interaction between adsorb

14 Hydrogen bonding plays an essential role on intermolecular forces, and consequently on the thermodyn

15 lth of information concerning the structure, intermolecular forces, and dynamics of ionic liquids.

16 r crystals is defined by a balance of weaker intermolecular forces, and small changes to the molecula

17 Intermolecular forces are described in the method using

18 Weak, intermolecular forces are difficult to observe in soluti

19 It is well understood that intermolecular forces are directly linked to physicochem

20 ar complexes that self-assemble through weak intermolecular forces are dynamic species, encapsulating

21 , hydration, and elastic interactions to the intermolecular forces associated with bundling of straig

22 es are found to have opposite effects on the intermolecular forces; attractions increase with [NaCl],

23 Here, we report measurements of intermolecular forces between collagen helices in native

24 urface structure and dynamics as well as the intermolecular forces between peptides, providing a numb

25 charge, solvent declustering, and the strong intermolecular forces between RDX molecules in the solid

26 e, internal dynamics, and origin of the weak intermolecular forces between sevoflurane and a benzene

27 This critical thickness is the result of intermolecular forces between solid and liquid, which co

28 The nature of the intermolecular forces between water molecules is the sam

29 In the present study, we measure intermolecular forces by following CO motion on a micros

30 However, a number of factors unrelated to intermolecular forces can also impact protein diffusion,

31 The intermolecular force components theory was used for the

32 logy, with separate repulsive and attractive intermolecular forces determining the extent of DNA comp

33 However, the intermolecular forces driving integrin self-association

34 nder the combined actions of dipole moments, intermolecular forces, entropy, and electrodes.

35 theoretical knowledge of the manner in which intermolecular forces give rise to complex behaviour in

36 The spatial distribution of intermolecular forces governs macromolecular interaction

37 a catalytic role for C-H/pi interactions as intermolecular forces important to DNA repair.

38 Designing the intermolecular forces in the way that cholesterol intera

39 Modeling of intermolecular forces is a central theme in the physical

40 timate SOA formation, and parametrization of intermolecular forces is needed for accurate predictions

41 es was achieved in one step, allowing direct intermolecular force measurement of the binding of the t

42 change in order was previously inferred from intermolecular force measurements and is now confirmed b

43 The significance of intermolecular force measurements for understanding the

44 Assembly can be driven by intermolecular forces, or molecule-surface forces, or bo

45 ic domains that can provide control over the intermolecular forces, phase preference, and macroscopic

46 e two sites, rather than the strength of the intermolecular forces, play a prominent role in determin

47 the clusters therefore give insight into the intermolecular forces present in liquid water and ice.

48 exation was found to effectively disrupt the intermolecular forces responsible for the aggregation of

49 orms adequately except when strong, specific intermolecular forces such as hydrogen bonding between s

50 tics and drive different in-plane piconewton intermolecular forces, suggesting that the binding of VE

51 Detailed understanding and control of the intermolecular forces that govern molecular assembly are

52 conclusions, and accurately reproducing the intermolecular forces that govern system structure and d

53 f SJW1660 flagellar filaments as well as the intermolecular forces that govern their assembly into de

54 pically governed by a subtle balance of weak intermolecular forces that makes structure prediction ch

55 Quantum fluctuations create intermolecular forces that pervade macroscopic bodies.

56 complementary surfaces interact through weak intermolecular forces to form assemblies, and the assemb

57 nd negatively charged amino acids on DNA-DNA intermolecular forces was studied using model peptides c

58 orce spectroscopy to quantify the intra- and intermolecular forces within the marine-gel network.