@article{33633,
  keywords = {nanostructured materials, atomic force microscopy, ferroelectricity, Dielectric properties, piezoelectricity, Ferroelectric capacitors, Capacitors, Piezoresponse, Nanocapacitors},
  author = {A Petraru and V Nagarajan and H Kohlstedt and Ramamoorthy Ramesh and D.G Schlom and R Waser},
  title = {Simultaneous measurement of the piezoelectric and dielectric response of nanoscale ferroelectric capacitors by an atomic force microscopy based approach},
  abstract = {We present a sensitive method to simultaneously acquire the C(V) characteristics and piezoresponse of submicron size ferroelectric capacitors using an Atomic Force Microscope (AFM). Model Pt/(La0.5,Sr 0.5)CoO3/ PbZr0.4Ti0.6 O 3/(La0.5,Sr0.5)CoO3/La:SrTiO 3/Si nanocapacitors were fabricated by focused ion beam milling from 100 μm2 down to 0.04 μm2. With this AFM based capacitance measurement technique we show clear "double-humped" C(V) for all sizes with no significant change in the peak value of the εr down to capacitors with the smallest area of 0.04 μm 2. The smallest capacitance measured is only of the order a few femtofarads, demonstrating the high sensitivity of the technique. Simultaneously, the piezoelectric response is recorded for each measurement, thus the technique facilitates simultaneous piezoresponse and dielectric characterization of ferroelectric memory devices.},
  year = {2006},
  journal = {Applied Physics A: Materials Science and Processing},
  volume = {84},
  number = {1-2},
  pages = {67-71},
  issn = {09478396},
  doi = {10.1007/s00339-006-3592-2},
  note = {cited By 8},
  language = {eng},
}