ライフサイエンスコーパス: face-centered cubic

1 s are atypical for PBAs, which are typically face centered cubic.

2 s are atypical for PBAs, which are typically face centered cubic.

3 free from disorder, unlike the well-studied face-centered cubic A3C60 alkali metal fulleride superco

4 dynamics simulations, to elucidate a twinned face-centered-cubic alloy in an experiment with hardness

5 the six <100> preferred growth directions in face centered cubic alloys.

6 nontrivial behavior due to the existence of face-centered cubic and body-centered cubic crystal stru

7 on from an ordered monoclinic structure to a face-centered-cubic arrangement of orientationally disor

8 NpN(2) crystallizes in a face-centered cubic CaF(2)-type structure with a space g

9 The data were consistent with a face-centered cubic crystal having a unit crystal cell s

10 Twin nucleation in a face-centered cubic crystal is believed to be accomplish

11 n form with the approximate periodicity of a face-centered cubic crystal, as the spontaneous product

12 The identification of new face-centered cubic crystallographic structure of Ru nan

13 k waves in three-dimensional 10-million atom face-centered cubic crystals with cross-sectional dimens

14 s this fundamental question by examining the face-centered-cubic Cu-Zn alpha-brasses.

15 ty in bulk nanolayered composites of a model face-centered-cubic (Cu)/body-centered-cubic (Nb) system

16 Our predicted spectrum for the face-centered cubic delta phase agrees well with experim

17 aller grain size, and optimized fractions of face-centered cubic (f.c.c., gamma) and hexagonal close-

18 The face centered cubic (fcc) alloy NiCoCrx with x approxima

19 alysis leads to asymptotic states resembling face centered cubic (FCC) and hexagonal close packed (HC

20 Electrodeposited Pt and CuO exhibited face centered cubic (fcc) and monoclinic crystal structu

21 e cubic (SC), body centered cubic (BCC), and face centered cubic (FCC) crystal structures and show th

22 Chemically disordered face centered cubic (fcc) FePt nanoparticles (NPs) show

23 Recent successes in forming different shaped face centered cubic (fcc) metal nanostructures has enabl

24 ften adopt the body centered cubic (bcc) and face centered cubic (fcc) structures.

25 he bead surface expressing a complete set of face centered cubic (fcc) surface structures represented

26 sition from cubic solid solution [denoted as face centered cubic (fcc)] structure to tetragonal inter

27 composed of a hydrogel polymerized around a face-centered cubic (fcc) array of monodisperse, highly

28 iolate ligands and one sulfido ligand with a face-centered cubic (FCC) Au22 kernel.

29 e nC60-stir was a superstructure composed of face-centered cubic (fcc) close-packing of near-spherica

30 ination of the phonon dispersion curves in a face-centered cubic (fcc) delta-plutonium-0.6 weight % g

31 Unlike the previously synthesized disordered face-centered cubic (fcc) FePt nanoparticles with diamet

32 ns of icosahedral (Ih), decahedral (Dh), and face-centered cubic (fcc) isomers within a set of popula

33 Face-centered cubic (fcc) lattice is the only known crys

34 g, which is the Delaunay tessellation of the face-centered cubic (fcc) lattice, and its closely relat

35 med the nature of single supercrystal with a face-centered cubic (fcc) lattice.

36 into superlattice (SL) allotropes of either face-centered cubic (fcc) or body-centered cubic (bcc) s

37 local atomic structure is consistent with a face-centered cubic (fcc) or Marks decahedral arrangemen

38 izes in the space group R3 and adopts pseudo face-centered cubic (fcc) packing, whereas other MOSCs,

39 ing between hexagonal close-packed (hcp) and face-centered cubic (fcc) sites, was seen when the tip w

40 Among these, equatomic CrMnFeCoNi with the face-centered cubic (FCC) structure is noteworthy becaus

41 re transformation from chemically disordered face-centered cubic (fcc) structure to chemically ordere

42 ple, LaH10 is found to adopt a sodalite-like face-centered cubic (fcc) structure, stable above 200 GP

43 Gold is well known to adopt face-centered cubic (fcc) structure.

44 NCs with dense ligand coverage assemble into face-centered cubic (fcc) superlattices whereas NCs with

45 It is face-centered cubic (fcc) to low temperatures with Na(+)

46 of this hypothesis requires the synthesis of face-centered cubic (fcc) trivalent fulleride anion salt

47 c (bcc), body-centered tetragonal (bct), and face-centered cubic (fcc)--as confirmed by synchrotron s

48 The actual ground state is face-centered cubic (fcc).

49 S NCs in toluene self-assemble into a single face-centered-cubic (fcc) and body-centered-cubic (bcc)

50 depletion of dislocations from submicrometer face-centered-cubic (FCC) pillars provides a plausible e

51 iously reported body-centered cubic (BCC) or face-centered-cubic (FCC) types, the major structure was

52 s a ligand-deficient layered analogue of the face-centered cubic fcu UiO-67(Hf).

53 lloy transformed upon hydrogenation into the face-centered-cubic fluorite Mg1-yTiyHx phase with favor

54 ca synthesized under typical conditions is a face-centered cubic Fm3m structure with 3-dimensional he

55 ects that connect this layer to the adjacent face-centered cubic grains, we explain the geometric ori

56 mmetry, which reduces the frustration of the face centered cubic lattice of Os(VI) ions.

57 preferably interact with vacant sites of the face-centered cubic lattice above the metal surface.

58 s, it has only recently been proved that the face-centered cubic lattice has the highest possible pac

59 cies that move freely in three dimensions, a face-centered cubic lattice is best.

60 hedral structure, which is a fragment of the face-centered cubic lattice of bulk gold with a small st

61 rystals arranged within a silica matrix in a face-centered cubic lattice with cell dimensions that ar

62 of the four possible 111 glide planes in the face-centered cubic lattice, begins with junction format

63 del or backbone model on either the cubic or face-centered cubic lattice.

64 nd the X-ray structure is best-fitted onto a face-centered cubic lattice.

65 aining a truncated octahedral core with bulk face-centered cubic-like arrangement, yet a nanomolecule

66 = 1,4,8,11-tetraazacyclotetradecane) afford face-centered cubic [(Me(3)tacn)(8)Mo(8)Ni(6)(CN)(24)](1

67 Iridium is unique among the face-centered cubic metals in that it undergoes brittle

68 The (643) and (six four three) planes of face-centered cubic metals such as Cu have kinked and st

69 These observations in two dissimilar face-centered cubic metals suggest that strain recovery

70 winning should thus be highly unfavorable in face-centered cubic metals with high twin-fault energy b

71 e evolution of plasticity in heavily twinned face-centered cubic metals, with the potential for optim

72 tetrahedra (SFTs) are ubiquitous defects in face-centered cubic metals.

73 cubic nanometer) tetradecahedral cavities in face-centered cubic metals.

74 large as ~30%, at the same level of ductile face-centered-cubic metals.

75 At further compressions and in face-centered cubic Na above 64 GPa, the linear relation

76 S(*)R or involves direct binding of RS(*) to face-centered-cubic or hexagonal-close-packed sites.

77 In some oblate plasmas, a mixture of bcc and face-centered cubic ordering was seen.

78 Although pristine C60 prefers to adopt a face-centered cubic packing arrangement in the solid sta

79 ody-centered cubic phase, differing from the face-centered cubic phase of both bulk solid xenon and s

80 ticle structure from a chemically disordered face-centered cubic phase to the chemically ordered face

81 However, stable non-face-centered cubic phases have not been reported in nob

82 l lattice may induce distortions to form non-face-centered cubic phases when the lateral dimensions o

83 ly 1 J/m(2), which is expected for bulk fcc (face centered cubic) silver.

84 lloy, CrMnFeCoNi, which forms a single-phase face-centered cubic solid solution, and found it to have

85 ent method, we show that the icosahedron and face-centered cubic SRO increase upon cooling.

86 few than three atoms energetically prefers a face-centered-cubic stacking, to serve as a nucleus of s

87 entered cubic structure to 52 GPa and in the face-centered cubic structure from 64 to 97 GPa, and stu

88 to form crystalline silver nanoparticles of face-centered cubic structure with a mean size of 10 nm.

89 eas along the nanowire axis, with a textured face-centered cubic structure.

90 or proton-irradiated structural metals with face-centered cubic structures.

91 ess, of planar-extended core dislocations in face-centered cubic structures.

92 toric stress drives SC(110) orientation in a face-centered-cubic supercrystal (SC), rocksalt (RS) NPs

93 d a strong tendency to form multiply twinned face-centered cubic superlattices with decahedral and ic

94 6)(SR)(24) nanocluster reveals an unexpected face-centered-cubic tetrahedral Au(28) kernel (magenta).

95 chanisms of room temperature rolling induced face-centered cubic titanium (fcc-Ti) in polycrystalline

96 ystal exhibits a phase transformation from a face-centered cubic to a body-centered tetragonal struct

97 pted non-close-packed structures (e.g., from face-centered cubic to body-centered cubic) and changed

98 faults that change the local structure from face-centered cubic to hexagonal close packed.

99 e crystals, whereby a body-centered cubic to face-centered cubic transformation is found to proceed s

100 iates on two different facets of these eight face-centered-cubic transition metals, combined with a s

101 toms per primitive unit cell (1140 atoms per face-centered cubic unit cell).