Method of fabrication of Al/GE bonding in a wafer packaging environment and a product produced therefrom
First Claim
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1. A method for providing a wafer, the method comprising:
- providing a first substrate including a microelectromechanical systems (MEMS) feature and a patterned, germanium layer, the patterned, germanium layer being an exposed layer on the first substrate;
providing a second substrate, including a patterned, aluminum layer and an electrical contact, the patterned, aluminum layer being an exposed layer on the second substrate;
bonding the patterned, germanium layer of the first substrate to the patterned, aluminum layer of the second substrate to create an electrical and mechanical bond between the first substrate and the second substrate; and
using an oxidation reducing agent to deoxidize a bonding surface of the patterned, aluminum layer of the first substrate and a bonding surface of the patterned, germanium layer of the second substrate.
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Abstract
A method of bonding of germanium to aluminum between two substrates to create a robust electrical and mechanical contact is disclosed. An aluminum-germanium bond has the following unique combination of attributes: (1) it can form a hermetic seal; (2) it can be used to create an electrically conductive path between two substrates; (3) it can be patterned so that this conduction path is localized; (4) the bond can be made with the aluminum that is available as standard foundry CMOS process. This has the significant advantage of allowing for wafer-level bonding or packaging without the addition of any additional process layers to the CMOS wafer.
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Citations
19 Claims
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1. A method for providing a wafer, the method comprising:
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providing a first substrate including a microelectromechanical systems (MEMS) feature and a patterned, germanium layer, the patterned, germanium layer being an exposed layer on the first substrate; providing a second substrate, including a patterned, aluminum layer and an electrical contact, the patterned, aluminum layer being an exposed layer on the second substrate; bonding the patterned, germanium layer of the first substrate to the patterned, aluminum layer of the second substrate to create an electrical and mechanical bond between the first substrate and the second substrate; and using an oxidation reducing agent to deoxidize a bonding surface of the patterned, aluminum layer of the first substrate and a bonding surface of the patterned, germanium layer of the second substrate. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for providing a wafer, the method comprising:
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providing a first substrate including a microelectromechanical systems (MEMS) feature and a patterned, germanium layer, the patterned, germanium layer being an exposed layer on the first substrate; providing a second substrate, including a patterned, aluminum layer and an electrical contact, the patterned, aluminum layer being an exposed layer on the second substrate; and bonding the patterned, germanium layer of the first substrate to the patterned, aluminum layer of the second substrate to create an electrical and mechanical bond between the first substrate and the second substrate;
wherein bonding the patterned, germanium layer of the first substrate to the patterned, aluminum layer of the second substrate includes using a controlled ambient including an oxidation reducing agent.
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8. A method for providing a wafer, the method comprising:
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providing a first substrate including a microelectromechanical systems (MEMS) feature and a patterned germanium layer, the patterned germanium layer being an exposed layer on the first substrate; providing a second substrate, including a patterned aluminum layer and an electrical contact, the patterned aluminum layer being an exposed layer on the second substrate; matching the germanium of the patterned germanium layer of the first substrate to the aluminum of the patterned, aluminum layer of the second substrate; bonding the germanium of the patterned germanium layer of the first substrate to the aluminum of the patterned aluminum layer of the second substrate; and cleaning at least one of a bonding surface of the patterned, germanium layer of the first substrate or a bonding surface of the patterned, aluminum layer of the second substrate by sputter etching. - View Dependent Claims (9)
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10. A method for bonding a CMOS wafer and a MEMS wafer, the CMOS wafer including an integrated circuit, the MEMS wafer including a MEMS device, the method comprising:
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depositing and patterning germanium bonding layer on the MEMS wafer; forming a patterned aluminum bonding layer on the CMOS wafer; cleaning the CMOS wafer and the MEMS wafer, including deoxidizing contact surfaces of the CMOS wafer and the MEMS wafer; matching the germanium of the patterned germanium bonding layer with the aluminum of the patterned aluminum bonding layer after cleaning; and forming a eutectic bond between the germanium of the patterned germanium bonding layer and the aluminum of the patterned aluminum bonding layer wafer using a bonding recipe, wherein a temperature of the CMOS wafer and a temperature of the MEMS wafer does not exceed 450°
C. during the bonding recipe, wherein the patterned aluminum bonding layer on the CMOS wafer is a ratio mix of Al;
Si;
Cu (Aluminum;
Silicon;
Copper). - View Dependent Claims (11, 12, 13)
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14. A method for bonding a CMOS wafer and a MEMS wafer, the CMOS wafer including an integrated circuit, the MEMS wafer including a MEMS device, the method comprising:
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depositing a germanium bonding layer on one of the wafers; forming a substantially aluminum bonding layer on one of the wafers, wherein the CMOS wafer is placed in a first chuck and the MEMs wafer is placed in a second chuck; aligning CMOS wafer and the MEMS wafer; forming a eutectic bond between the germanium bonding layer and the aluminum bonding layer, wherein the eutectic bond is formed by applying a force across the first chuck and the second chuck, and ramping the temperature over the eutectic point of the aluminum/germanium bond to a second predetermined temperature that is less than 500°
C., andinducing an oxidation reducing agent at atmospheric pressure prior to bonding and providing a vacuum to remove the forming gas. - View Dependent Claims (15, 16, 17)
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18. A method for bonding a first substrate wafer and a second substrate wafer, the first substrate wafer including a patterned aluminum layer, the second substrate wafer including a patterned germanium layer, the method comprising:
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placing the first substrate wafer in a first chuck; placing the second substrate wafer in a second chuck; aligning the first substrate wafer and the second substrate wafer; forming a eutectic bond between the patterned germanium layer and the patterned aluminum layer, wherein the eutectic bond is formed by applying a force across the first chuck and the second chuck, and ramping the temperature over the eutectic point of the aluminum/germanium bond to a second predetermined temperature that is less than 500°
C., andinducing an oxidation reducing agent at atmospheric pressure prior to bonding and providing a vacuum to remove the forming gas.
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19. A method for bonding a first substrate wafer and a second substrate wafer, the first substrate wafer including a patterned aluminum layer, the second substrate wafer including a patterned germanium layer, the method comprising:
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placing the first substrate wafer in a first chuck; placing the second substrate wafer in a second chuck; aligning the first substrate wafer and the second substrate wafer to match the aluminum of the patterned aluminum layer with the germanium of the patterned germanium layer; and forming an eutectic bond between the germanium of the patterned germanium layer and the aluminum of the patterned aluminum layer, wherein the eutectic bond forms a hermetic seal on some portions of the patterned germanium layer and patterned aluminum layer and forms an electrical contact on some portions of the patterned germanium layer and patterned aluminum layer.
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Specification