Method of making a stacked 3D integrated circuit structure
First Claim
1. A method of making a stacked integrated circuit structure comprising the steps of:
- forming first and second flexible membranes each including a plurality of electrically interconnected semiconductor devices;
bonding a principal surface of the first flexible membrane to the second flexible membrane; and
interconnecting at least one semiconductor device in the first flexible membrane to a semiconductor device in the second flexible membrane.
2 Assignments
0 Petitions
Accused Products
Abstract
General purpose methods for the fabrication of integrated circuits from flexible membranes formed of very thin low stress dielectric materials, such as silicon dioxide or silicon nitride, and semiconductor layers. Semiconductor devices are formed in a semiconductor layer of the membrane. The semiconductor membrane layer is initially formed from a substrate of standard thickness, and all but a thin surface layer of the substrate is then etched or polished away. In another version, the flexible membrane is used as support and electrical interconnect for conventional integrated circuit die bonded thereto, with the interconnect formed in multiple layers in the membrane. Multiple die can be connected to one such membrane, which is then packaged as a multi-chip module. Other applications are based on (circuit) membrane processing for bipolar and MOSFET transistor fabrication, low impedance conductor interconnecting fabrication, flat panel displays, maskless (direct write) lithography, and 3D IC fabrication.
174 Citations
6 Claims
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1. A method of making a stacked integrated circuit structure comprising the steps of:
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forming first and second flexible membranes each including a plurality of electrically interconnected semiconductor devices; bonding a principal surface of the first flexible membrane to the second flexible membrane; and interconnecting at least one semiconductor device in the first flexible membrane to a semiconductor device in the second flexible membrane. - View Dependent Claims (2, 3)
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4. A method of forming an interconnect structure for a circuit membrane, comprising the steps of:
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providing a semiconductor film; forming a flexible dielectric membrane on a principal surface of the semiconductor film; forming a layer of amorphous silicon on the membrane; patterning the amorphous silicon layer to form trenches and vias therein; depositing a layer of metal over the patterned amorphous silicon; patterning the deposited layer of metal, thereby forming metal traces; forming a second layer of amorphous silicon overlying the traces; patterning the second layer of amorphous silicon; forming a second dielectric layer over the second patterned layer of amorphous silicon; forming etch vias penetrating the dielectric layer to the underlying second layer of amorphous silicon; and removing the first and second layers of amorphous silicon through the etch vias, thereby leaving the metal traces supported at the vias by the dielectric membrane and overlain by the dielectric layer. - View Dependent Claims (5, 6)
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Specification