ライフサイエンスコーパス: third dimension

1 ion can be computationally extruded into the third dimension.

2 vestigations with atomic resolution into the third dimension.

3 cyclotron resonance mass spectrometry as the third dimension.

4 ell-biomaterial interface has shifted to the third dimension.

5 imensional substrates and do not exploit the third dimension.

6 amiltonian accounts for the influence of the third dimension.

7 t with an impoverished representation of the third dimension.

8 y cancel out the benefits of moving into the third dimension.

9 and nanostructured biomedical devices to the third dimension.

10 e so that self-assembly is extended into the third dimension.

11 ence can be regarded as superatoms forming a third dimension.

12 ynamic surfaces, and to pattern cells in the third dimension.

13 extend electron microscopic imaging into the third dimension.

14 stic dimensions, but varied randomly along a third dimension.

15 individual microcolonies, and growth in the third dimension.

16 es in two dimensions and gene density in the third dimension.

17 onolayer as chain segments can escape to the third dimension.

18 nd dimension and time domain ((t)LC) for the third dimension.

19 er of tiers integrated monolithically in the third dimension.

20 atography (HIC)) and desalting SEC-MS in the third dimension ((3)D).

21 Narrow third dimension, (3)D, peaks with (3) w(b) of ~15 ms wer

22 ess the nutrients needed for growth from the third dimension, a 3D colony inevitably becomes nutrient

23 Our results demonstrate how the third dimension above and underneath aromatic rings can

24 d assembly builds arrays of tissues into the third dimension above the template.

25 quantitative phase images give access to the third dimension, allowing to additionally study particle

26 igh-resolution mass spectrometry has added a third dimension (alongside retention time and exact mass

27 id-19, extending conventional histology by a third dimension and allowing for full quantification of

28 , the skyrmion spin texture extends into the third dimension and cannot be assumed as homogeneous.

29 n of planar lithographic patterning into the third dimension and create reconfigurable structures tha

30 with index guiding providing control in the third dimension, and raise the prospect of being able to

31 where altitude plays a critical role as the third dimension, and the current network-based framework

32 h pore diameter, but a large increase in the third dimension associated with pore length.

33 rs of [M(pyz)(2)](n+) that are linked in the third dimension by either HF(2)(-) (1a and 1b) or H(3)F(

34 ow this materials map can be extended in the third dimension by including physical properties of appl

35 s of the 20 living mammalian orders and to a third dimension by phylogenetic description of the genom

36 This study adds a third dimension by showing that the upstream ecotoxicity

37 ter, and the effect of number of second- and third-dimension channels on the resulting peak capacity

38 lation affected by the number of second- and third-dimension channels.

39 It is also unclear how the third dimension controls mixing and reactions.

40 he retinal image is flat, we must derive the third dimension, depth, from two-dimensional cues.

41 The third dimension, depth, is projected as subtle differenc

42 We show that adding the retention time as a third dimension improves the resolution power of the two

43 he Bragg diffracted exit beam, and along the third dimension in real space by the scanning beam.

44 deformation of the Miura-ori unit along the third dimension induces net electric and magnetic dipole

45 Incorporating this third dimension into our estimates of land use impact is

46 bvious how the disposition of objects in the third dimension is encoded.

47 in two dimensions, while confinement in the third dimension is gravitational.

48 ng the structural complexity coming from the third dimension is justified for metrics based on size a

49 hat time scale, when coupling to a second or third dimension is restored.

50 The third dimension is treated as an area reservoir for spre

51 the human brain was extended to include the third dimension of binocular depth.

52 Here we uncover an important third dimension of control: the magnitude of the respons

53 e experienced, and (2) proposes that Wundt's third dimension of core affect - strain-relaxation - can

54 area of technical quality of care (i.e., the third dimension of quality care) has resulted in the dev

55 ate the X-ray photon energy into the missing third dimension of space.

56 g the advantage of resolving these ions in a third dimension of the relative energy deposited into th

57 ions of space (azimuth and elevation) plus a third dimension of time.

58 isuospatial attention specifically along the third dimension of visual space (i.e., from close to far

59 ous to binol, but which possesses the added "third dimension" of cyclophane chirality.

60 t or misalignment of catalytic residues as a third dimension on the free-energy profile and by includ

61 However, the meaning of the third dimension, particularly its relationship to tempor

62 lecule with a scanning probe microscope, the third dimension perpendicular to the surface will soon b

63 The third dimension relates to the episodic specificity of r

64 g the same level of resolution in the axial (third) dimension remains challenging.

65 ensions, in which the twist extends into the third dimension, remains underexplored because of the ch

66 f the crosspeaks at 77 K, extending into the third dimension resolves 19 individual peaks.

67 thin it by taking into account the important third dimension.SIGNIFICANCE STATEMENT The spatial world

68 ture, and other fluidic manipulations in the third dimension significantly improves the functionality

69 cast new light on the basis for judging the third dimension - source distance.

70 ent connectivities between the sheets in the third dimension that endows each framework isomer with u

71 ventional histopathological examination by a third dimension, the delicate pathological changes of th

72 asonic experiments, and demonstrate that the third dimension (thickness) of the planar lipid bilayer

73 Incorporating the third dimension thus proves critically important in avoi

74 The MS served as the third dimension to further resolve as well as to identif

75 ory, but real-world materials often need the third dimension to stabilize long-range order.

76 azomethine ylide formation, which suggests a third dimension to the John Pople diagram to enhance the

77 -quality monolayer graphene which provides a third dimension to this material.

78 ducting CuAAC enantioselectively would add a third dimension to this reaction and would enable the di

79 opose to tilt the (1)H-(13)C coupling into a third dimension via fast-hybrid 3D NMR methods combining

80 on gained from two-dimensional images to the third dimension, we examined a 3D image stack from seria

81 mage reconstruction was also extended to the third dimension without the requirement of image registr