Patent application number | Description | Published |
20090011565 | Field effect transistor structure with abrupt source/drain junctions - Microelectronic structures embodying the present invention include a field effect transistor (FET) having highly conductive source/drain extensions. Formation of such highly conductive source/drain extensions includes forming a passivated recess which is back filled by epitaxial deposition of doped material to form the source/drain junctions. The recesses include a laterally extending region that underlies a portion of the gate structure. Such a lateral extension may underlie a sidewall spacer adjacent to the vertical sidewalls of the gate electrode, or may extend further into the channel portion of a FET such that the lateral recess underlies the gate electrode portion of the gate structure. In one embodiment the recess is back filled by an in-situ epitaxial deposition of a bilayer of oppositely doped material. In this way, a very abrupt junction is achieved that provides a relatively low resistance source/drain extension and further provides good off-state subthreshold leakage characteristics. Alternative embodiments can be implemented with a back filled recess of a single conductivity type. | 01-08-2009 |
20090174070 | Three-dimensional stacked substrate arrangements - Three-dimensional stacked substrate arrangements with reliable bonding and inter-substrate protection. | 07-09-2009 |
20100133595 | FIELD EFFECT TRANSISTOR STRUCTURE WITH ABRUPT SOURCE/DRAIN JUNCTIONS - Microelectronic structures embodying the present invention include a field effect transistor (FET) having highly conductive source/drain extensions. Formation of such highly conductive source/drain extensions includes forming a passivated recess which is back filled by epitaxial deposition of doped material to form the source/drain junctions. The recesses include a laterally extending region that underlies a portion of the gate structure. Such a lateral extension may underlie a sidewall spacer adjacent to the vertical sidewalls of the gate electrode, or may extend further into the channel portion of a FET such that the lateral recess underlies the gate electrode portion of the gate structure. In one embodiment the recess is back filled by an in-situ epitaxial deposition of a bilayer of oppositely doped material. In this way, a very abrupt junction is achieved that provides a relatively low resistance source/drain extension and further provides good off-state subthreshold leakage characteristics. Alternative embodiments can be implemented with a back filled recess of a single conductivity type. | 06-03-2010 |
20110147059 | Substrate for integrated circuit devices including multi-layer glass core and methods of making the same - Disclosed are embodiments of a substrate for an integrated circuit (IC) device. The substrate includes a core comprised of two or more discrete glass layers that have been bonded together. A separate bonding layer may be disposed between adjacent glass layers to couple these layers together. The substrate may also include build-up structures on opposing sides of the multi-layer glass core, or perhaps on one side of the core. Electrically conductive terminals may be formed on both sides of the substrate, and an IC die may be coupled with the terminals on one side of the substrate. The terminals on the opposing side may be coupled with a next-level component, such as a circuit board. One or more conductors extend through the multi-layer glass core, and one or more of the conductors may be electrically coupled with the build-up structures disposed over the core. Other embodiments are described and claimed. | 06-23-2011 |
20110247872 | DEBOND INTERCONNECT STRUCTURES - The present subject matter relates to the field of fabricating microelectronic devices. In at least one embodiment, the present subject matter relates to forming an interconnect that has a portion thereof which becomes debonded from the microelectronic device during cooling after attachment to an external device. The debonded portion allows the interconnect to flex and absorb stress. | 10-13-2011 |
20110260319 | THREE-DIMENSIONAL STACKED SUBSTRATE ARRANGEMENTS - Three-dimensional stacked substrate arrangements with reliable bonding and inter-substrate protection. | 10-27-2011 |
20120280387 | THREE-DIMENSIONAL STACKED SUBSTRATE ARRANGEMENTS - Three-dimensional stacked substrate arrangements with reliable bonding and inter-substrate protection. | 11-08-2012 |
20140106560 | DEBOND INTERCONNECT STRUCTURES - The present subject matter relates to the field of fabricating microelectronic devices. In at least one embodiment, the present subject matter relates to forming an interconnect that has a portion thereof which becomes debonded from the microelectronic device during cooling after attachment to an external device. The debonded portion allows the interconnect to flex and absorb stress. | 04-17-2014 |
20140264739 | METHODS OF FORMING UNDER DEVICE INTERCONNECT STRUCTURES - Methods of forming microelectronic interconnect under device structures are described. Those methods and structures may include forming a device layer in a first substrate, forming at least one routing layer in a second substrate, and then coupling the first substrate with the second substrate, wherein the first substrate is bonded to the second substrate. | 09-18-2014 |