@article{33528,
  keywords = {deposition, pulsed laser deposition, optical properties, Perovskite, oxygen, Epitaxial growth, Epitaxial thin films, Lanthanum, Strontium titanates, Strontium, Oxide heterostructures, Oxygen vacancies, Doping (additives), strontium titanate, Electric resistance, Perovskite oxides, High transparency, SrTiO, Conductive films, Epitaxial films, Critical growth, Intrinsic optical properties, La doping, Opto-electronics, Pulsed-laser deposition technique, UV visible spectroscopy, UV-visible, Optoelectronic devices, Ultraviolet spectroscopy},
  author = {J Ravichandran and W Siemons and H Heijmerikx and M Huijben and A Majumdar and Ramamoorthy Ramesh},
  title = {An epitaxial transparent conducting perovskite oxide: Double-doped SrTiO3},
  abstract = {Epitaxial thin films of strontium titanate doped with different concentrations of lanthanum and oxygen vacancies were grown on LSAT substrates by pulsed laser deposition technique. Films grownwith 5-15%La doping and a critical growth pressure of 1-10mTorr showed high transparency (>70-95%) in the UV-visible range with a sheet resistance of 300-1000 Ω/0. With the aid of UV-visible spectroscopy and photoluminescence, we establish the presence of oxygen vacancies and the possible band structure, which is crucial for the transparent conducting nature of these films. This demonstration will enable development of various epitaxial oxide heterostructures for both realizing opto-electronic devices and understanding their intrinsic optical properties. © 2010 American Chemical Society.},
  year = {2010},
  journal = {Chemistry of Materials},
  volume = {22},
  number = {13},
  pages = {3983-3987},
  issn = {08974756},
  doi = {10.1021/cm1005604},
  note = {cited By 34},
  language = {eng},
}