摘要:
The invention teaches the addition of copper lines, these copper lines to be added to isolated copper lines or to selected copper lines within a collection of copper lines. The invention also teaches the addition of copper end caps to isolated copper lines or to selected copper lines within a collection of copper lines. The invention further teaches the widening of copper lines for isolated copper lines or selected copper lines within a collection of copper lines.
摘要:
A method for filling a trench within a silicon substrate. There is first provided a silicon substrate having a trench formed therein. There is then oxidized thermally the silicon substrate to form within the trench a thermal silicon oxide trench liner layer. There is then treated the thermal silicon oxide trench liner layer by exposure to a plasma formed from a gas composition which upon plasma activation simultaneously supplies an active nitrogen containing species and an active oxygen containing species to form a plasma treated thermal silicon oxide trench liner layer. There is then formed upon the plasma treated thermal silicon oxide trench liner layer a conformal silicon oxide intermediate layer formed through a plasma enhanced chemical vapor deposition (PECVD) method employing a silane silicon source material. Finally, there is then formed upon the conformal silicon oxide intermediate layer a gap filling silicon oxide trench fill layer through an ozone assisted sub-atmospheric pressure thermal chemical vapor deposition (SACVD) method employing an ozone oxidant and a tetra-ethyl-ortho-silicate (TEOS) silicon source material.
摘要:
An improved method for implementing shallow trench isolation in integrated circuits is described. The method begins with the formation of trenches, through patterning and etching. These trenches are then filled with a conformal layer of silicon oxide. This is followed by overcoating with a layer of a hard material such as silicon nitride or boron nitride. Next, chemical-mechanical polishing is used to remove the hard layer everywhere except where it has filled the depressions that overlie the trenches. Then, a non-selective etch is used to remove the remaining hard layer material as well as some of the silicon oxide, so that a planar surface is maintained. Finally, chemical-mechanical polishing is used a second time to remove excess silicon oxide from above the trenches' surface.
摘要:
A method for filling a trench within a silicon substrate. There is first provided a silicon substrate having a trench formed therein. There is then oxidized thermally the silicon substrate to form within the trench a thermal silicon oxide trench liner layer. There is then formed upon the thermal silicon oxide trench liner layer a conformal silicon oxide intermediate layer formed through a plasma enhanced chemical vapor deposition (PECVD) method employing a silane silicon source material. Finally, there is then formed upon the conformal silicon oxide intermediate layer a gap filling silicon oxide trench fill layer through an ozone assisted sub-atmospheric pressure thermal chemical vapor deposition (SACVD) method employing an ozone oxidant and a tetra-ethyl-ortho-silicate (TEOS) silicon source material. To provide improved properties of the gap filling silicon oxide trench fill layer the thermal silicon oxide trench liner layer may be treated with a nitrogen containing plasma prior to forming the conformal silicon oxide intermediate layer thereupon.
摘要:
A method for forming a trench isolation region within a trench within a silicon substrate. There is first provided a silicon substrate having a trench formed therein. There is then formed over the silicon substrate and filling the trench a silicon oxide trench fill layer. There is then thermally oxidized the silicon substrate and the silicon oxide trench fill layer within a thermal oxidation atmosphere to form a densified silicon oxide trench fill layer upon a silicon oxide trench liner layer within an oxidized trench within an oxidized silicon substrate, where the silicon oxide trench liner layer is formed from oxidation of the silicon substrate when forming the oxidized silicon substrate.
摘要:
A method for forming planarized shallow trench isolation is described. A pad oxide layer is grown over the surface of a semiconductor substrate. A nitride layer is deposited overlying the pad oxide layer. A plurality of isolation trenches are etched through the nitride and pad oxide layers into the semiconductor substrate wherein there are at least one first wide nitride region between two of the trenches and at least one second narrow nitride region between another two of the trenches. A high density plasma oxide layer is deposited over the nitride layer and within the isolation trenches wherein the high density plasma oxide layer fills the isolation trenches and wherein the high density plasma oxide deposits more thickly in the first region over the wide nitride layer and deposits more thinly in the second region over the narrow nitride layer. A photoresist mask is formed over the high density plasma oxide layer. The substrate is exposed to actinic light wherein a central portion of the first region is exposed. The high density plasma oxide layer is etched away where it has been exposed. The high density plasma oxide layer remaining is polished away whereby the substrate is planarized and fabrication of said integrated circuit device is completed.
摘要:
A method for filling a trench within a substrate. There is first provided a substrate having a trench formed within the substrate. There is then formed over the substrate and within the trench a silicon layer. The silicon layer has an aperture formed therein where the silicon layer is formed within the trench. There is then formed upon the silicon layer and filling the aperture a gap filling silicon oxide trench fill layer. The gap filling silicon oxide trench fill layer is formed through an ozone assisted sub-atmospheric pressure chemical vapor deposition (SACVD) method. Finally, the substrate is annealed thermally in an oxygen containing atmosphere to form within the trench an oxidized silicon layer from the silicon layer, where the oxidized silicon layer is contiguous with a densified gap filling silicon oxide trench fill layer simultaneously formed from the gap filling silicon oxide trench fill layer. Through the method, the densified gap filling silicon oxide trench fill layer is formed without a surface sensitivity.
摘要:
The invention teaches the addition of copper lines, these copper lines to be added to isolated copper lines or to selected copper lines within a collection of copper lines. The invention also teaches the addition of copper end caps to isolated copper lines or to selected copper lines within a collection of copper lines. The invention further teaches the widening of copper lines for isolated copper lines or selected copper lines within a collection of copper lines.
摘要:
The present invention provides a method of manufacturing a sacrificial self aligned sub-atmospheric chemical vapor deposition (SACVD) O.sub.3 TEOS layer 50 70 over a trench oxide 40 to protect the trench oxide from excessive subsequent etch steps. The SACVD O.sub.3 TEOS layer has a higher deposition rate over the trench oxide layer 40 than over the surrounding non-trench thermally grown pad oxides. The trench oxide is preferably formed using a process of PECVD, LPTEOS, or O.sub.3 -TEOS. The invention provides two preferred embodiments: (1) a first self aligned sacrificial O.sub.3 TEOS oxide layer 50 deposited before the pad oxide etch and (2) a second self aligned sacrificial O.sub.3 TEOS oxide layer 70 deposited before the sacrificial implant oxide etch. The invention can be applied in a variety of situations where the trench oxide is exposed to damaging etches.
摘要:
A method for forming within a trench within a substrate within an integrated circuit a planarized trench fill layer. There is first provided a substrate having a trench formed therein. There is formed upon the substrate at regions other than those within the trench a first integrated circuit layer which has a composition which inhibits formation upon the first integrated circuit layer of a trench fill layer which is subsequently formed upon the substrate and within the trench. There is also formed within the trench but not upon the substrate at regions other than those within the trench a second integrated circuit layer which has a composition which promotes formation within the trench of the trench fill layer which is subsequently formed upon the substrate and within the trench. Finally, there is formed upon the substrate and within the trench the trench fill layer. The trench fill layer is formed to a thickness over the trench such that when the trench fill layer is planarized through a chemical mechanical polish (CMP) planarizing method there is avoided formation of a dish within a planarized trench fill layer formed within the trench.