Crystal StructureCrystal GrowthCrystalsDiffractionLattice ParametersSolutionsMeetingsEDB/360202CeramicsSeveral crystals of boron carbide, grown from molten Cu, Pt and Pd solutions using natural occurring as well as isotopically enriched boron, give essentially identical values for the lattice parameters. These ...
Crystal structure of lanthanum borocarbide, La10B9C12 Crystal structure of 4-(4-pyridil)-3,5-dimethylpyrozole hydrate, (C5H4N)CH3(C3N2H)CH3· H2O Crystal structure of 1-benzoyl-2-picoloyl-hydrazine nickel(II)-methylene chiloride solvate ( 1:0.25), Ni[OC(C6H5)NHN(C5H4N)CO)]2·...
Crystal structure of dicaesium hydrogenphosphide, Cs2[PH] Crystal structure of trieuropium bis(dinitridoborate), Eu3[BN2]2 Crystal structure of scandium borocarbide, ScB13C Crystal structure of 4-ethyl-3,5-dimethyl-2,4,6-triphenyl-4H-thiopyran, C27H26S and of 4-tert-butyl-3,5-dim...
The Crystal Structure of Boron Carbide Several crystals of boron carbide, grown from molten Cu, Pt, and Pd solutions using natural occurring as well as isotopically enriched boron, give essentially identical values for the lattice parameters. These parameters are consistent w... HK Clark,JL Hoard...
The crystal structure of three different samples of melt-grown β-rhombohedral boron has been reinvestigated. There are 20 different symmetry-equivalent atomic positions in the unit cell, four of which have not been previously reported. Six of the 20 are partially occupied. The hexagonal unit cell...
Figure 1. Crystal structure of diamond[1]. Diamond monocrystalline powder is almost entirely made of carbon, with trace amounts of additional elements such as nitrogen and boron, exceptionally chemically stable and does not react with the majority of chemicals, including acids and bases. Because o...
Studies the crystal structure and superconductivity of (La,Sr)[sub 2]CuO[sub 4]/Sm[sub 2]CuO[sub 4] superlattices prepared by excimer laser deposition. Superconducting behavior of the superlattices; Explanation of the phenomenon to be derived from a pressure effect caused by a lattice mismatch ...
The structure exhibits a significantly asymmetric halogen environment about the isolated scandium atom and a distortion of the cluster from D3d to C3 symmetry. The changes may reflect the operation of an alternative matrix effect arising from the large halide and the small interstitial. The magnetic ...
Structure refinement of the layered composite crystal Sc2B1.1C3.2 in a five-dimensional formalism The crystal structure of a layered compound Sc 2 B 1.1 C 3.2 , scandium boride carbide ( M r = 140.43), has been re-refined as a commensurate composite... S Ying,M Onoda,A Leithe-Jasper,...
Crystal structure of praseodymium dimolybdenum disilicide carbide, PrMoSiC Crystal structure of niobium chromium nickel, Nb(CrNi) (x = 0.49) Crystal structure of distrontium oxide diiodide, SrOI Crystal structure of diaquadidysprosium triglutarate tetrahydrate, Dy(HO)[OC(CH)CO] · 4HO Crystal stru...