Superconductivity, charge- or spin-density wave, and metal-nonmetal transition in BaTi2(Sb1-xBix)2O

Abstract

We have performed an isovalent substitution study in a layered titanium oxypnictide system BaTi2(Sb1-xBix)2O (0≤ x≤ 0.40) by the measurements of x-ray diffraction, electrical resistivity and magnetic susceptibility. The parent compound BaTi2Sb2O is confirmed to exhibit superconductivity at 1.5 K as well as charge- or spin-density wave (CDW/SDW) ordering below 55 K. With the partial substitution of Sb by Bi, the lattice parameters a, c and c/a all increase monotonically, indicating negative chemical pressure and lattice distortion on the (super)conducting Ti2Sb2O-layers. The Bi doping elevates the superconducting transition temperature to its maximum Tc=3.7 K at x=0.17, and then Tc decreases gradually with additional Bi doping. A metal-to-nonmetal transition takes place around x=0.3, and superconductivity at 1K exists at the nonmetal side. The CDW/SDW anomaly, in comparison, is rapidly suppressed by the Bi doping, and vanishes for x≥0.17. The results are discussed in terms of negative chemical pressure and disorder effect.