Thin films with low dielectric constant were deposited by PECVD from different organosilicon precursors. Film structure and properties were strongly affected by the precursor choice. Silane-based precursors resulted in films with permittivities as low as 2.3 with a limited thickness loss of 6% upon thermal annealing at 400 8C. Films deposited from siloxane monomers were characterized by increased thickness shrinkage of 11%. Thermal stability was correlated not only to the cross-linking degree but also to the presence of methylene bridges in the polymer backbone, which accounts for the better thermal stability of silane-based films. Substrate heating (150 8C) during deposition ensured the best balance between very low permittivities and good thermal stability
A Chemical Study of Plasma-Deposited Organosilicon Thin Films as Low-k Dielectrics
A. M. COCLITE;MILELLA, ANTONELLA;FRACASSI, Francesco;
2009-01-01
Abstract
Thin films with low dielectric constant were deposited by PECVD from different organosilicon precursors. Film structure and properties were strongly affected by the precursor choice. Silane-based precursors resulted in films with permittivities as low as 2.3 with a limited thickness loss of 6% upon thermal annealing at 400 8C. Films deposited from siloxane monomers were characterized by increased thickness shrinkage of 11%. Thermal stability was correlated not only to the cross-linking degree but also to the presence of methylene bridges in the polymer backbone, which accounts for the better thermal stability of silane-based films. Substrate heating (150 8C) during deposition ensured the best balance between very low permittivities and good thermal stabilityI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
