Method for manufacturing integrated structures including removing a sacrificial region
First Claim
1. A method for manufacturing integrated structures, comprising the steps of:
- forming a wafer including at least a semiconductor material substrate and a sacrificial region;
forming a semiconductor layer on the sacrificial region;
forming a barrier layer on the semiconductor layer and over portions of the wafer lateral of the sacrificial region;
forming an opening in the barrier layer over the semiconductor layer to expose an area of the semiconductor layer directly above the sacrificial region and leave barrier portions of the barrier layer laterally of the opening;
forming an etching mask on the semiconductor layer through the opening and on the barrier regions;
forming a hole through the etching mask and semiconductor layer; and
removing said sacrificial region through the hole while using said etching mask to protect the semiconductor layer, wherein said etching mask comprises titanium nitride.
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Abstract
The method is based on the use of an etching mask comprising silicon carbide or titanium nitride for removing a sacrificial region. In case of manufacture of integrated semiconductor material structures, the following steps are performed: forming a sacrificial region of silicon oxide on a substrate of semiconductor material; growing a pseudo-epitaxial layer; forming electronic circuit components; depositing a masking layer comprising silicon carbide or titanium nitride; defining photolithographically the masking layer so as to form an etching mask containing the topography of a microstructure to be formed; with the etching mask, forming trenches in the pseudo-epitaxial layer as far as the sacrificial region so as to laterally define the microstructure; and removing the sacrificial region through the trenches.
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Citations
16 Claims
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1. A method for manufacturing integrated structures, comprising the steps of:
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forming a wafer including at least a semiconductor material substrate and a sacrificial region;
forming a semiconductor layer on the sacrificial region;
forming a barrier layer on the semiconductor layer and over portions of the wafer lateral of the sacrificial region;
forming an opening in the barrier layer over the semiconductor layer to expose an area of the semiconductor layer directly above the sacrificial region and leave barrier portions of the barrier layer laterally of the opening;
forming an etching mask on the semiconductor layer through the opening and on the barrier regions;
forming a hole through the etching mask and semiconductor layer; and
removing said sacrificial region through the hole while using said etching mask to protect the semiconductor layer, wherein said etching mask comprises titanium nitride. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
said etching mask contains a topography of a microstructure to be formed in the semiconductor layer;
using said etching mask, trenches are formed in said semiconductor layer so as to laterally define said microstructure, said trenches extending as far as said sacrificial region and including the hole; and
said sacrificial region is removed through said trenches.
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5. The method according to claim 1 wherein said barrier layer comprises silicon oxide deposited from TEOS.
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6. The method according to claim 1 wherein said step of forming the etching mask comprises a step of forming a first masking layer of silicon carbide or titanium nitride, and defining photolithographically said first masking layer.
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7. The method according to claim 6 wherein, after said step of forming a first masking layer and prior to said step of defining photolithographically, a step of forming a second masking layer on the first masking layer is performed and said step of photolithographically defining also comprises a step of selectively removing a portion of said second masking layer so that the hole extends through the semiconductor layer, first masking layer, and second masking layer, wherein the second masking layer is removed simultaneously with the sacrificial region.
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8. The method according to claim 7 wherein said second masking layer comprises silicon oxide.
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9. The method according to claim 8 wherein said silicon oxide is deposited from TEOS.
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10. The method according to claim 1 wherein said step of forming a wafer comprises:
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forming an oxide region on said substrate, said oxide region being the sacrificial region; and
the step of forming the semiconductor layer includes;
growing epitaxially said semiconductor layer.
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11. The method according to claim 1 wherein, prior to said step of forming an etching mask, the following steps are performed:
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creating integrated electronic components in said semiconductor layer;
forming a contact pad of electrically conducting material above said wafer;
forming a passivating layer above said wafer; and
creating an opening in said passivating layer above said contact pad.
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12. A method for manufacturing an integrated microstructure device having a semiconductor material substrate, comprising following steps:
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forming a sacrificial region on the semiconductor material substrate;
forming a semiconductor material layer, the sacrificial region being positioned between the substrate and the semiconductor material layer;
forming an etching mask over the sacrificial region and the semiconductor material layer, said etching mask comprising silicon carbide or titanium nitride; and
removing the sacrificial region, wherein the step of forming the etching mask comprises;
forming a first masking layer, the first masking layer including titanium nitride;
forming a second masking layer over the first masking layer;
photolithographically defining the first and second masking layers; and
removing parts of the first and second masking layer being photolithographically defined. - View Dependent Claims (13, 14, 15, 16)
forming trenches in the semiconductor material layer to laterally define the microstructure, the trenches extending as far as the sacrificial region; and
removing the sacrificial region through the trenches to form a suspended region of the semiconductor material layer.
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14. The method of claim 12 wherein, prior to the step of forming the first masking layer, the method further comprises:
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forming a barrier layer over the semiconductor material layer; and
selectively removing the barrier layer to form a barrier region and an opening region for hosing the microstructure of the device.
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15. The method of claim 14 wherein the step of forming the barrier layer comprises:
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forming a first dielectric layer of BPSG or PSG;
forming a passivating layer of oxynitride over the first dielectric layer; and
forming a second dielectric layer of TEOS.
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16. The method of claim 12 wherein the step of forming the barrier layer includes forming the barrier layer in the opening above the contact pad such that the barrier layer contacts the contact pad.
Specification