1998
DOI: 10.1149/1.1838726
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Properties of a ‐ SiO x  :  H  Thin Films Deposited from Hydrogen Silsesquioxane Resins

Abstract: Ultralarge sale integrated circuit designs require multiple metal wiring layers for the formation of the device interconnections. Surface planarization and the deposition of high quality insulating films are critical fabrication steps related to the manufacture of these circuits. Planarization and dielectric deposition can be accomplished simultaneously using a spin-on process with hydrogen silsesquioxane (HSQ) resin to deposit amorphous SiO:H dielectric films. The use of this material in device manufacturing … Show more

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Cited by 169 publications
(127 citation statements)
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“…This structural transformation results in significant lowering of the dielectric constant (k) down to 2.9. The associated vibrations of the network/cage structure in the HSQ films can be seen at 1070 (Si -O -Si network) and 1130 cm corresponds to the Si -H stretching mode [7].…”
Section: Resultsmentioning
confidence: 99%
“…This structural transformation results in significant lowering of the dielectric constant (k) down to 2.9. The associated vibrations of the network/cage structure in the HSQ films can be seen at 1070 (Si -O -Si network) and 1130 cm corresponds to the Si -H stretching mode [7].…”
Section: Resultsmentioning
confidence: 99%
“…HSQ, were studied by Frye and Collins [63]. Later on, because of its properties (low dielectric constant, ranging between 2.6 and 3, excellent gap fill and planarization performance), HSQ started to be used as an interlayer dielectric material in high-performance integrated circuits [64][65][66]. The use of multiple metal interconnect layers became very trivial in the semiconductor industry, due to dimension shrinkage of the devices.…”
Section: Brief Introduction To Hsqmentioning
confidence: 99%
“…The organosilicon polymers were expected to preserve some characteristics of the silicon dioxide that would facilitate their integration in the interconnect structure. MSQ fi lms are deposited by spin-on techniques from precursor molecules that have nanoporous geometry and the polymerization processes preserves a part of the precursor's structure in the fi lms [39]. However, contrary to expectations, the integration of the spin-on fi lms with k < 3 proved to be diffi cult, mainly due to their poor mechanical properties and the tendency of the fi lms to crack.…”
Section: Sicoh Films As Low-k and Ultralow-k Dielectricsmentioning
confidence: 99%
“…The initial depositions were intended to prepare fi lms having a cage-type SiO structure similar to that of MSQ [39] and it was assumed that a ring-type cyclic siloxane precursor will be most suitable for that purpose [40]. It was expected that, by adjusting the plasma conditions for minimal dissociation of the molecules, the ring structure of the molecule could be preserved in the fi lm, inducing molecular nanoporosity, thereby creating a material with reduced density and corresponding lower dielectric constant.…”
Section: Preparation Dense Sicohmentioning
confidence: 99%