Ossenkop
Doreen Jane Ossenkop, North Hudson, NY US
Patent application number | Description | Published |
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20110068477 | THROUGH SUBSTRATE VIA INCLUDING VARIABLE SIDEWALL PROFILE - A microelectronic structure, such as a semiconductor structure, and a method for fabricating the microelectronic structure, include an aperture within a substrate. Into the aperture is located and formed a via. The via may include a through substrate via. The aperture includes, progressing sequentially contiguously at least partially through the substrate: (1) a first comparatively wide region at a surface of the substrate; (2) a constricted region contiguous with the first comparatively wide region; (3) a second comparatively wide region contiguous with the constricted region; and (4) a tapered region contiguous with the second comparatively wide region. The structure of the aperture provides for ease in filling the aperture, as well as void isolation within the via that is filled into the aperture. | 03-24-2011 |
Dorreen J. Ossenkop, North Hudson, NY US
Patent application number | Description | Published |
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20090280643 | OPTIMAL TUNGSTEN THROUGH WAFER VIA AND PROCESS OF FABRICATING SAME - A method of optimally filling a through via within a through wafer via structure with a conductive metal such as, for example, W is provided. The inventive method includes providing a structure including a substrate having at least one aperture at least partially formed through the substrate. The at least one aperture of the structure has an aspect ratio of at least 20:1 or greater. Next, a refractory metal-containing liner such as, for example, Ti/TiN, is formed on bare sidewalls of the substrate within the at least one aperture. A conductive metal seed layer is then formed on the refractory metal-containing liner. In the invention, the conductive metal seed layer formed is enriched with silicon and has a grain size of about 5 nm or less. Next, a conductive metal nucleation layer is formed on the conductive metal seed layer. The conductive metal nucleation layer is also enriched with silicon and has a grain size of about 20 nm or greater. Next, a conductive metal is formed on the conductive metal nucleation layer. After performing the above processing steps, a backside planarization process is performed to convert the at least one aperture into at least one through via that is now optimally filled with a conductive metal. | 11-12-2009 |
Dorreen Jane Ossenkop, North Hudson, NY US
Patent application number | Description | Published |
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20090278237 | THROUGH SUBSTRATE VIA INCLUDING VARIABLE SIDEWALL PROFILE - A microelectronic structure, such as a semiconductor structure, and a method for fabricating the microelectronic structure, include an aperture within a substrate. Into the aperture is located and formed a via. The via may include a through substrate via. The aperture includes, progressing sequentially contiguously at least partially through the substrate: (1) a first comparatively wide region at a surface of the substrate; (2) a constricted region contiguous with the first comparatively wide region; (3) a second comparatively wide region contiguous with the constricted region; and (4) a tapered region contiguous with the second comparatively wide region. The structure of the aperture provides for ease in filling the aperture, as well as void isolation within the via that is filled into the aperture. | 11-12-2009 |