TY - JOUR
AU - G.A Maximov
AU - O.N Gorshkov
AU - V.V Novikov
AU - A.S Strahkov
AU - D.O Filatov
AU - S.Yu Zubkov
AU - D.E Nikolichev
AU - S Aggarwal
AU - Ramamoorthy Ramesh
AU - E Williams
AB - The results on the effect of ultraviolet radiation and of the high-frequency plasma discharge on self-assembled formation of the palladium oxide cone-shaped surface nanostructures during thermal oxidation in the oxygen ambient are presented. While for the thermal oxidation growth of the PdO tips takes place at oxidation temperatures T > 750°C only, in the presence of both UV and plasma discharge tip formation has been observed at lower temperatures (450-500°C). Reduction of the tip growth temperature by UV or plasma activation is favorable for proposed technological application of the PdO nanostructures as field emitters in vacuum microelectronics and in the field emitter displays.
BT - Physics of Low-Dimensional Structures
LA - eng
M1 - 3-4
N1 - cited By 0
N2 - The results on the effect of ultraviolet radiation and of the high-frequency plasma discharge on self-assembled formation of the palladium oxide cone-shaped surface nanostructures during thermal oxidation in the oxygen ambient are presented. While for the thermal oxidation growth of the PdO tips takes place at oxidation temperatures T > 750°C only, in the presence of both UV and plasma discharge tip formation has been observed at lower temperatures (450-500°C). Reduction of the tip growth temperature by UV or plasma activation is favorable for proposed technological application of the PdO nanostructures as field emitters in vacuum microelectronics and in the field emitter displays.
PY - 2001
SP - 175
EP - 182
T2 - Physics of Low-Dimensional Structures
TI - Ultraviolet- and Plasma-Enhanced Self-Assembled Growth and SPM Characterization of Pd Oxide Nanotips
VL - 2001
SN - 02043467
ER -