Seed layers for metallic interconnects
DCFirst Claim
1. A method for making metallic interconnects, which method is utilized at a stage of processing a substrate having a patterned insulating layer which includes at least one opening and a field surrounding the at least one opening, the field and the at least one opening being ready for depositing one or more seed layers, said method comprising:
- physical vapor depositing a first seed layer over the field and inside surfaces of the at least one opening, wherein said first seed layer is thicker than about 250 Å
over the field;
chemical vapor depositing a second seed layer over the first seed layer, wherein the first seed layer is thicker than the second seed layer over the field; and
filling the at least one opening by electroplating a metallic layer comprising copper or a copper alloy over the second seed layer.
2 Assignments
Litigations
6 Petitions
Accused Products
Abstract
One embodiment of the present invention is a method for making copper or a copper alloy interconnects, which method includes: (a) forming a patterned insulating layer over a substrate, the patterned insulating layer including at least one opening and a field surrounding the at least one opening; (b) depositing a barrier layer over the patterned insulating layer including over the field and inside surfaces of the at least one opening, the barrier layer consists of a refractory metal or an alloy of a refractory metal; (c) physical vapor depositing a substantially non-conformal seed layer consisting of copper or a copper alloy over the barrier layer, wherein said substantially non-conformal seed layer is thicker than about 500 Å over the field; (d) chemical vapor depositing a substantially conformal seed layer consisting of copper or a copper alloy over the substantially non-conformal seed layer; and (e) filling the at least one opening by electroplating a metallic layer consisting of copper or a copper alloy over the substantially conformal seed layer.
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Citations
75 Claims
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1. A method for making metallic interconnects, which method is utilized at a stage of processing a substrate having a patterned insulating layer which includes at least one opening and a field surrounding the at least one opening, the field and the at least one opening being ready for depositing one or more seed layers, said method comprising:
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physical vapor depositing a first seed layer over the field and inside surfaces of the at least one opening, wherein said first seed layer is thicker than about 250 Å
over the field;chemical vapor depositing a second seed layer over the first seed layer, wherein the first seed layer is thicker than the second seed layer over the field; and filling the at least one opening by electroplating a metallic layer comprising copper or a copper alloy over the second seed layer. - View Dependent Claims (2, 3)
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4. A method for making metallic interconnects, said method comprising:
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forming a patterned insulating layer on a substrate, the patterned insulating layer including at least one opening and a field surrounding the at least one opening; depositing a barrier layer over the field and inside surfaces of the at least one opening; chemical vapor depositing a first seed layer over the barrier layer; physical vapor depositing a second seed layer over the first seed layer, wherein the second seed layer is thicker than the first seed layer over the field; and filling the at least one opening by electroplating a metallic layer comprising copper or a copper alloy over the two seed layers. - View Dependent Claims (5)
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6. A method for making metallic interconnects, which method is utilized at a stage of processing a substrate having a patterned insulating layer which includes at least one opening and a field surrounding the at least one opening, the field and the at least one opening being ready for depositing one or more seed layers, the method comprising:
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depositing by a CVD technique a first seed layer over the field and inside surfaces of the at least one opening; depositing by a PVD technique a second seed layer over the first seed layer, wherein the second seed layer is thicker than the first seed layer over the field and wherein the first and the second seed layers do not seal the at least one opening, thereby leaving enough room for electroplating inside the at least one opening; and filling the at least one opening by electroplating a metallic layer over the second and the first seed layers, wherein the electroplated metallic layer comprises a material selected from a group consisting of Cu, Ag, or alloys comprising one or more of these metals. - View Dependent Claims (7, 8, 9)
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10. A method for making metallic interconnects over a substrate, the substrate having a patterned insulating layer which includes at least one opening and a field surrounding the at least one opening, the at least one opening and the field being ready for depositing one or more seed layers, the at least one opening having sidewalls and bottom, and the method comprising:
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depositing by a first deposition technique a first seed layer over the substrate, wherein the first seed layer provides continuous coverage of the sidewalls and bottom inside the at least one opening; depositing by a PVD technique a second seed layer over the first seed layer, wherein the combined seed layers provide a low electrical resistance path over the field to enable uniform plating across the substrate; and filling the at least one opening by electroplating a metallic layer over the second seed layer, wherein the electroplated metallic layer comprises a material selected from a group consisting of Cu, Ag, or alloys comprising one or more of these metals. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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19. A method for making metallic interconnects over a substrate, the substrate having a patterned insulating layer which includes at least one opening and a field surrounding the at least one opening, the at least one opening and the field being ready for depositing one or more seed layers, the at least one opening having sidewalls and bottom, the method comprising:
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depositing by a PVD technique a first seed layer over the field and inside surfaces of the at least one opening, the first seed layer being thicker than 520 Å
over the field;depositing a second seed layer over the first seed layer using a second deposition technique, wherein the second seed layer provides continuous coverage of the sidewalls and bottom inside the at least one opening, and wherein the first seed layer is thicker than the second seed layer over the field; and filling the at least one opening by electroplating a metallic layer over the second seed layer, wherein the electroplated metallic layer comprises a material selected from a group consisting of Cu, Ag, or alloys comprising one or more of these metals. - View Dependent Claims (20, 21, 22, 23, 24, 25)
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26. A method for making metallic interconnects over a substrate, the substrate having a patterned insulating layer which includes at least one opening and a field surrounding the at least one opening, the at least one opening and the field being ready for depositing one or more seed layers, the at least one opening having sidewalls and bottom, and the method comprising:
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a step for depositing a first seed layer over the substrate, said first seed layer being continuous on the sidewalls and bottom of the at least one opening; a step for depositing a second seed layer by a PVD technique over the first seed layer, wherein the combined seed layers provide a low electrical resistance path over the field to enable uniform plating across the substrate; and filling the at least one opening by electroplating a metallic layer over the first and the second seed layers, wherein the electroplated metallic layer comprises a material selected from a group consisting of Cu, Ag, or alloys comprising one or more of these metals. - View Dependent Claims (27, 28, 29, 30, 31, 32, 33, 34)
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35. A method for making metallic interconnects over a substrate, the substrate having a patterned insulating layer which includes at least one opening and a field surrounding the at least one opening, the at least one opening and the field being ready for depositing one or more seed layers, the at least one opening having sidewalls and bottom, and the method comprising:
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a step for depositing a first seed layer over the substrate, the first seed layer having a thickness of more than about 250 Å
over the field;a step for depositing a second seed layer over the first seed layer, wherein the second seed layer is continuous on the sidewalls and bottom of the at least one opening, the first seed layer is thicker than the second seed layer over the field, the second seed layer is deposited by a CVD technique or by a PVD technique, and the combined seed layers provide a low electrical resistance path over the field to enable uniform plating across the substrate; and filling the at least one opening by electroplating a metallic layer over the first and second seed layers, wherein the electroplated metallic layer comprises a material selected from a group consisting of Cu, Ag, or alloys comprising one or more of these metals. - View Dependent Claims (36, 37, 38, 39, 40, 41, 42, 43)
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44. A method for making metallic interconnects over a substrate, the substrate having a patterned insulating layer which includes at least one opening and a field surrounding the at least one opening, the at least one opening and the field being ready for depositing one or more seed layers, the at least one opening having sidewalls and bottom, and the method comprising:
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depositing a first seed layer over the substrate, the first seed layer having a thickness of more than about 250 Å
over the field;depositing a second seed layer over the first seed layer, wherein the second seed layer is continuous on the sidewalls and bottom of the at least one opening, the first seed layer is thicker than the second seed layer over the field, the second seed layer is deposited by a CVD technique or by a PVD technique, and the combined seed layers provide a low electrical resistance path over the field to enable uniform plating across the substrate; and filling the at least one opening by electroplating a metallic layer over the first and second seed layers, wherein the electroplated metallic layer comprises a material selected from a group consisting of Cu, Ag, or alloys comprising one or more of these metals. - View Dependent Claims (45, 46, 47, 48, 49, 50, 51, 52)
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53. A method for making metallic interconnects over a substrate, the substrate includes a patterned insulating layer which comprises at least one opening surrounded by a field, the at least one opening and the field being ready for depositing one or more seed layers, the at least one opening having sidewalls and bottom, and the method comprising:
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depositing a continuous seed layer over the sidewalls and bottom of the at least one opening; and depositing by a PVD technique a PVD seed layer over the continuous seed layer, wherein the seed layers do not seal the at least one opening. - View Dependent Claims (54, 55, 56, 57, 58)
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59. A method for making metallic interconnects over a substrate, the substrate including a patterned insulating layer which comprises at least one opening surrounded by a field, the at least one opening and the field being ready for depositing one or more seed layers, the at least one opening having sidewalls and bottom, and the method comprising:
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depositing a continuous PVD seed layer over the sidewalls and bottom of the at least one opening using a first set of deposition parameters, the continuous PVD seed layer having a thickness greater than about 50 Å
over the field; anddepositing another PVD seed layer over the substrate using a second set of deposition parameters, wherein said second set of deposition parameters includes at least one deposition parameter which is different than in the first set of deposition parameters, the combined seed layers provide a low electrical resistance path over the field to enable uniform plating across the substrate, and the seed layers do not seal the at least one opening, thereby leaving enough room for electroplating inside the at least one opening. - View Dependent Claims (60, 61, 62, 63, 64)
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65. A method for making metallic interconnects over a substrate, the substrate including at least one insulating layer which comprises at least one opening surrounded by a field, the at least one opening and the field being ready for depositing one or more seed layers, the at least one opening having sidewalls and bottom, and the method comprising:
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depositing by a CVD technique a first seed layer over the sidewalls and bottom of the at least one opening, using a first set of deposition parameters; depositing a second seed layer over the first seed layer, using a second set of deposition parameters, wherein said second set of deposition parameters includes at least one deposition parameter which is different from the first set of deposition parameters, and wherein the seed layers do not seal the at least one opening, thereby leaving enough room for electroplating inside the at least one opening. - View Dependent Claims (66, 67, 68, 69, 70, 71, 72, 73, 74, 75)
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Specification