ライフサイエンスコーパス: polyhedron

1 suggests that Cs rattles in its coordination polyhedron.

2 ut a continuum of expression states within a polyhedron.

3 ring configuration typical of the underlying polyhedron.

4 ucture of the first observed metallic XeF(8) polyhedron.

5 l angles along all edges of the coordination polyhedron.

6 tivity vertices from the eleven-vertex closo polyhedron.

7 f shape (the equilibrium crystal shape) is a polyhedron.

8 d solvent molecule to the metal coordination polyhedron.

9 ion of azide anion to the metal coordination polyhedron.

10 morphology (forms), all of which are convex polyhedrons.

11 g in the formation of corner-sharing Zr-O/Cl polyhedrons.

12 Barium is bound within a close 15-atom polyhedron, 12 atoms of which are the more electronegati

13 which can cap one triangular face of a metal polyhedron), a bis-bidentate ligand L(2) (which can span

14 there is just a single tetrahedral Goldberg polyhedron, a single octahedral one, and a systematic, c

15 Complex 3 is a 10-vertex 21-electron polyhedron, a slightly distorted closo-Sn(9)Ni cluster w

16 cond water molecule to the zinc coordination polyhedron and also in H94N CAII due to the displacement

17 the tetragonal elongation of the CoO(4)S(2) polyhedron and the ordered moment in (Sr(1-x)Ba(x))(2)Co

18 and L(2) (which can span one edge of a metal polyhedron), and a range of M(2+) ions (M = Co, Cu, Cd),

19 , transform their outer shell to form mature polyhedrons, and become packaged with the viral double-s

20 -multi-arm junctions, three-dimensional (3D) polyhedrons, and various 2D/3D lattices.

21 In contrast, concave polyhedrons are a hallmark of twinning and polycrystalli

22 internal angles in each planar face of each polyhedron by solving a system of n equations and n vari

23 For fewer than 12 particles these form polyhedrons centered on the origin.

24 PCC-1 is a metal-organic polyhedron constructed from zinc metal ions and organic

25 Shape-persistent covalent organic polyhedrons (COPs) with ethynylene linkers are usually p

26 uction of shape-persistent, covalent organic polyhedrons (COPs).

27 talysts and carbon-supported CuNi@Pt-Cu nano-polyhedron counterparts.

28 The multispectral polyhedron created by merging singular optical maps, one

29 Our results suggest that the Ag-I polyhedron enables extended antibonding states to weaken

30 E2 peptide antibodies detected E1 and E2 in polyhedron extracts, and the antibodies were shown to be

31 We previously demonstrated that polyhedron formation (PF) mutants arise at a high freque

32 r apical epithelial layers, that is, Euler's polyhedron formula, Lewis' law, and Aboav-Weaire's law,

33 mprises a cuboctahedral Rh(II) metal-organic polyhedron functionalized with 24 carboxylic acid groups

34 lovirus immediately downstream of the strong polyhedron gene promoter.

35 In this series, the size of each polyhedron has been varied from 20.0 to 28.5 A (on edge)

36 sting a His(3)H(2)O or His(2)AspH(2)O Zn(2+)-polyhedron in LpxC.

37 rganic Archimedean truncatedhexahedron (tcu) polyhedron in the kernel which possesses six calixarene-

38 possibility: a continuum of states within a polyhedron, in which the vertices represent specialists

39 The idea of the coordination polyhedron is essential to understanding chemical struct

40 multiple tasks are arranged in a polygon or polyhedron (line, triangle, tetrahedron and so on, gener

41 Pd(NO3)2 delivers Fujita-type metal-organic polyhedron (MOP) 3 which bears 24 covalently attached me

42 alized, and permanently porous metal-organic polyhedron (MOP) and its subsequent transformation into

43 ic structure such as a cage or metal-organic polyhedron (MOP) can be synthesized via controlled cleav

44 ric silsesquioxane (POSS) with metal-organic polyhedron (MOP).

45 Pd(NO3)2 afforded Fujita-type metal organic polyhedron MOP1 (diameter approximately 8.2 nm), which i

46 arlo simulations of six convex space-filling polyhedrons, namely, truncated octahedrons, rhombic dode

47 so formed judging from the voided Sierpinski polyhedrons observed.

48 It is shown that an infinitely extended polyhedron of one sheet composed of plane polygons of fi

49 The carbon atoms of cuneane define a polyhedron of the C(2v) point group with six faces-two t

50 etermine the structural mechanism to form CA polyhedrons of variable shape in mature RSV particles.

51 Polyhedron packings have fascinated humans for centuries

52 d that expression of the AMViap gene rescued polyhedron production in Autographa californica M nucleo

53 minimum bounding ellipsoid of a coordination polyhedron provides a general method for studying distor

54 omputations show a dominant highly symmetric polyhedron quite different from the lithium analogue.

55 to be almost degenerate when the CoO(4)S(2) polyhedron reaches its maximum elongation.

56 veal that the heterogeneity of mature RSV CA polyhedrons results from an unexpected, intrinsic CA hex

57 we report a new type of structure: a concave polyhedron shape single crystal having a multidomain app

58 ntrolled connections were only observed with polyhedron shaped nanostructures with certain compositio

59 e been largely limited to systems containing polyhedron-shaped building blocks or those relying on co

60 Amphiphilic polyhedron-shaped p-sulfonatocalix[4]arene building bloc

61 istances along the edges of the coordination polyhedron show exactly the same quadratic dependence as

62 of clusters with architecture determined by polyhedron symmetry.

63 cuboctahedron is an archimedean semiregular polyhedron that combines square and triangular faces.

64 l plane of the square-pyramidal coordination polyhedron, the presence of pendant electron density tha

65 a hierarchical construction method based on polyhedrons to create an extensive library of compact or

66 o2+ to investigate the function of the metal polyhedron using optical absorption spectroscopy.

67 revealed an unusual non-spheroidal Pd37-atom polyhedron, which may be readily envisioned to originate

68 gene-expression to a continuum bounded by a polyhedron whose vertices are gene-expression profiles,

69 lecules lead directly to the construction of polyhedrons, whose edges consist of double helical DNA a

70 The three known classes of convex polyhedron with equal edge lengths and polyhedral symmet

71 to clathrates along with a unique 22-vertex polyhedron with two hexagonal faces capped by additional