@article{33691,
  keywords = {deposition, transmission electron microscopy, scanning electron microscopy, atomic force microscopy, Ferroelectric materials, Strontium compounds, Lead compounds, Lead zirconate titanate, X ray diffraction analysis, Barium titanate, Nanotubes, Wetting, Dynamic random access storage, Second harmonic generation, Chemical solution deposition, Ferroelectric nanotubes, Pore wetting, Strontium bismuth tantalate},
  author = {F.D Morrison and Y Luo and I Szafraniak and V Nagarajan and R.B Wehrspohn and M Steinhart and J.H Wendorff and N.D Zakharov and E.D Mishina and K.A Vorotilov and A.S Sigov and S Nakabayashi and M Alexe and Ramamoorthy Ramesh and J.F Scott},
  title = {Ferroelectric nanotubes},
  abstract = {We report the independent invention of ferroelectric nanotubes from groups in several countries. Devices have been made with three different materials: lead zirconate-titanate PbZr1-xTixO3 (PZT); barium titanate BaTiO3; and strontium bismuth tantalate SrBi2Ta2O9,(SBT). Several different deposition techniques have been used successfully, including misted CSD (chemical solution deposition) and pore wetting. Ferroelectric hysteresis and high optical nonlinearity have been demonstrated. The structures are analyzed via SEM, TEM, XRD, AFM (piezo-mode), and SHG. Applications to trenching in Si dynamic random access memories, ink-jet printers, and photonic devices are discussed. Ferroelectric filled pores as small as 20 nm in diameter have been studied. © 2003 Advanced Study Center Co. Ltd.},
  year = {2003},
  journal = {Reviews on Advanced Materials Science},
  volume = {4},
  number = {2},
  pages = {114-122},
  issn = {16065131},
  note = {cited By 93},
  language = {eng},
}