TW530342B - Formation method of self-aligned silicide using dual spacer - Google Patents

Abstract

This invention comprises: forming a gate dielectric layer and a polysilicon layer on a semiconductor substrate; using micro-lithography and etching process to etch the polysilicon layer and the gate dielectric layer to from a gate structure; then, forming a first spacer on the sidewall of the gate structure; forming a second spacer on the sidewall of the first spacer to form dual spacer structure surrounding the gate structure; performing an ion implantation to from source and drain in the semiconductor substrate; forming a conductor layer on the dual spacer, the gate structure and the semiconductor substrate; performing a first thermal annealing process to react the conductor layer with the gate, source and drain to form silicide; removing the non-reacted metal layer; performing a second thermal annealing process to reduce the resistance of the silicide; and finally removing the second spacer to remove the silicide on the second spacer formed by silicon atom diffusion.

Description

530342 A7 B7 V. Description of the invention () Method of operating speed of fast components. It is proposed in the known technology that a metal can react with silicon to generate a silicide metal to increase the operating speed of the device. In addition, self-aligned titanium silicide (T i s i 1 i c i d e) is also often used to reduce the resistance of the gate, drain, and source to increase the operating speed of the device. A brief description of the traditional silicided metal process is as follows. Generally, a metal layer is first deposited on the substrate surface and the gate surface. Then, the substrate is subjected to a heat treatment process, so that the metal layer reacts with the chopping to generate silicided metal. Then the unreacted metal layer is removed, and the above process is a general self-aligning dream metal process. However, a two-step heat treatment is usually required in a standard titanium silicide process. The above-mentioned titanium silicide process will cause a short circuit or a bridge. The process is described below. First, a titanium metal layer is deposited on top of the MOS transistor with a titanium nitride layer. Generally, the above MOS transistor has a barrier wall surrounding the gate electrode, and then the above titanium metal and the gate electrode are thermally annealed. The drain and the source produce a chemical reaction. This dream step is generally low temperature thermal annealing (annealing), and the process temperature is about 600 to 70 ° C. Subsequently, the titanium metal layer and the titanium nitride metal layer that are not involved in the reaction are selectively removed by wet etching, and then a high temperature thermal annealing is performed to reduce the resistance of the titanium silicide. The temperature of the high temperature thermal annealing is between 80 ° Between 0 and 900 deaths. However, in the above-mentioned thermal annealing process for forming silicided metal, the silicon atom is a paper standard applicable to the Chinese National Standard (CNS) A4 specification (210X297). ： --- • Winter-(Please read the note on the back first Please fill in this page again) Order printed by the Intellectual Property Bureau Employee Consumer Cooperative of the Ministry of Economic Affairs Printed by 530342 A7 B7 V. Description of the invention (a potential source of diffusion, therefore, its C is violating the above reasons, and the silicon atom will probably break the gap It reacts with the titanium metal on the surface to form a chemical metal on the two surfaces of the gap. This chemical metal will cause a short circuit between the question and drain electrodes. Purpose and summary of the invention: Cheng Fayue's main purpose is to provide a self-aligned silicidation. Made of metal ^ Please read the notes on the back before filling this page) Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs Another purpose of the present invention is to use the double gap wall of the gate structure to self-quasi dream metal, to Solve the problem of bridging or short circuit in the traditional metal cutting process. The invention includes forming a transistor on a substrate, a silicon oxide layer is formed on the gate * structure and the surface of the substrate, and then using a non-isotropic monolithic etching technique to oxidize the stone oxide layer to form a first spacer composed of silicon oxide On the sidewall of the gate structure. Then, a chemical vapor deposition method is used to form a silicon nitride layer on the gate structure: the spacer and the substrate. Similarly, the silicon nitride layer is etched by using an anisotropic touch-etching process to form a second gap wall on the side wall of the first gap wall. Next, the gate and the double gap wall are used as a mask for ion implantation, and ion doping is performed to form a drain electrode and a source electrode in the substrate. A titanium or titanium / titanium nitride conductive layer is deposited on the gate structure and double-spaced wall after the fabrication of the drain and source electrodes. The paper size applies the Chinese National Standard (CNS) A4 specification (210 × 297 mm). π * J ·. 530342 A7 B7 V. Description of the invention (and on the substrate. Then blow back with low temperature heat, gland blame, seven "a", "Inverse people will" (or titanium / titanium nitride) with the gate, drain The electrode reacts with the source to form a silicon servant, μ a ^, weave 1 titanium silicide, and the temperature of the low-temperature 埶 annealing of the above fan is about 600 to 7 00c. And μ, Qitu A ^ _ ΓΊ The conductive layer that is not involved in the reaction is advantageous. Wet selective etching is used to drop it. The tower is 1. A ^ u Fang Chen. Then the temperature is between 300 and 90 (TC). A high-temperature thermal annealing process is performed to reduce the resistance 发. Finally, the silicide metal is aligned and formed on the gate and the drain / source respectively. After the silicide process is completed, the second process is completed. Removal of the gap wall, in general, the second gap wall can be peeled off using a hot phosphoric acid solution. It is formed in the second gap due to the diffusion of silicon atoms. The titanium silicide on it will be removed together. Brief description of the drawings: The first figure is a cross-sectional view of the present invention forming a double-gap gate structure. The second figure is a titanium metal layer formed on the gate and the substrate according to the present invention. The third figure is a cross-sectional view of the present invention forming self-aligned petrified metal on the gate, drain and source. —, 0 —.---— (Please read the notes on the back before filling (This page) Detailed description of the invention printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs: As shown in the first figure, a single crystal semiconductor with a crystal plane (Ί 00) as the substrate, such as a P-type or N-type hair substrate 2. Next, as the isolation region 4 for isolation between components, the above-mentioned insulation region 4 can usually be fabricated using shallow trench isolation technology (STI) or field oxidation insulation technology. For example, Shallow trench insulation technology uses lithography and etching. The paper size applies the Chinese National Standard (CNS) A4 specification (210X297 mm) 530342.

、 Explanation of the invention (with Giotto, polar soil < above. Then, titanium (or titanium / titanium nitride) and gate, *; and electrode and source are reacted to form titanium silicide by low temperature thermal annealing. Warmly chasing the fire in the warmth ..., the plate, and the force is between 600 and 700. The above-mentioned conductive layer that does not participate in the reaction is selectively removed by the diffuse touch engraving method. _ High temperature thermal annealing process is performed between 300 900 ¾ to reduce the electrical and magnetic properties of titanium silicide. Finally, the silicide metal is aligned and formed on the gate electrode and drain electrode respectively. After that, the second gap wall is removed. Generally, the second gap wall can be peeled off with a hot galvanic acid solution. The titanium silicide formed on the second gap wall due to silicon atom diffusion will be removed together. Brief description The first picture is a cross-sectional view of a gate structure with a double-gap wall formed according to the present invention. The second picture is a cross-sectional view of a titanium metal layer formed on the gate and the substrate according to the present invention. A cross-sectional view of self-aligned silicide metal is formed on the drain and source. .----- (Please read the notes on the back before filling this page)

1, 1T Printed by the Intellectual Property Bureau of the Ministry of Economic Affairs, Consumer Cooperatives, Printed Invention Details: As shown in the first figure, a single crystal semiconductor with a crystal plane of (100) is used as the substrate, such as a P-type or N-type silicon substrate 2 . Next, as the isolation region 4 which is used as the element separation, the above-mentioned insulating region 4 can usually be fabricated using shallow trench insulation technology (sha 丨 丨 w trench iS0 | ati0n; ST |) or field oxidation insulation technology. For example, the shallow trench insulation technology uses lithography and etching. The paper size applies the Chinese National Standard (CNS) A4 specification (210X297 mm) 530342 A7 B7. 5. Description of the invention (21) Make shallow trenches in the substrate. A chemical vapor deposition oxide layer is backfilled into the shallow trenches, and then etch back or chemical mechanical polishing is used to planarize the second oxide. In addition, the field oxidation region is formed under the oxygen-containing vapour ring θ and thermal oxidation method, and the silicon dioxide is generated at a temperature between 850 ″ and 50 °. After the flaw is removed, it is removed by clear etching as an oxidation mask. Silicon nitride. Next, a gate oxide layer 6 is formed on the substrate 2. Generally, the gate electrode and the chemical layer 6 can be formed in an oxygen-containing environment at a temperature of 75 to ^, and the thickness is generally about A 1 to 5 to 60. ; F day 1, il is the use of chemical vapor deposition method can also complete the gate oxide layer 6 production. Subsequently, a chemical vapor deposition method is used to deposit a polycrystalline silicon layer 8 over the gate oxide layer 6 to a thickness of 21 (00 to 4000 angstroms). Next, define the photoresist pattern on the polycrystalline silicon wafer 8. The polycrystalline silicon layer 8 and the gate emulsified layer 6 are etched by an etching technique to define the pattern of the gate structure. Then remove the photoresist. Then, the gate structure is used as a mask for ion implantation, and implantation technology is used to implant ions in the substrate 2 to form a lightly doped drain near the gate. 〇, in order to reduce the hot print in the channel of the Ministry of Economic Affairs Intellectual Property Bureau employee consumer cooperative printed on the pressure. The example of the low level and the 4 constitute a knot-shaped polar method gate product ο Yu Shen 4 Cheng Xiang ’s aerosol stratigraphy is used to cut down and reduce the temperature with oxygen and temperature, and can make layers, _ silicon method Read the oxygen sink ginseng, the surface gas table science board to ο ο (Please read the precautions on the back before filling this page)

Prospective bidders: One country, one country, one medium, one cent, one public 530342 A7

The consumer property cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs prints a step for the production of side wall spacers. This step uses anisotropic etching to etch the silicon oxide layer to form the first silicon oxide layer = the gap wall 1 2 on the sidewall of the gate structure. A chemical vapor deposition method, such as a low pressure chemical vapor deposition method, is used to form a silicon nitride layer on the gate structure, the first spacer wall 12 and the substrate 2 at a temperature of about 500-700. 〇, the reaction gas to form silicon nitride & usually SiH4, NH3, N2, N2O or SiH2Cl2, NHi N at. 〇, 2, IN 2 0 ° Similarly, a silicon nitride layer is etched by using an anisotropic etching process to form a second spacer wall 14 on a side wall of the first spacer wall 12. The width of the above-mentioned double spacers 12, 14 composed of oxidized stone and nitrided hair can be determined by controlling the thickness of the silicon oxide layer and the silicon nitride layer respectively deposited. As shown in the second figure, the gate structure and the double-spacer walls 2 and 4 are used as a mask for ion implantation, and ion doping is performed to form a drain and a source] 6 in the substrate 2. The technique of making the drain and source is a well-known technique and will not be described in detail here. A conductive layer 18 containing “or nitride” (Ti / TiN) 18 is deposited on the gate structure, the double spacers 1, 2, 4 and the substrate 2 after the fabrication of the electrodes and the source is completed. Then low temperature thermal annealing is used to react “(or titanium / nitride) with the gate electrode 8, non-electrode, and source electrode 16 to form petrified”. The above-mentioned low temperature thermal annealing temperature is about 600 to Between 700 ° C. The non-reactive conductive layer is selectively removed by a wet etching method. Then apply the Chinese National Standard (CNS) A4 specification (21 × 297 mm) to this paper size (please read the precautions on the back before filling out this page) 1. Fill in the items again Binding 530342 A7 B7 V. Invention Note (The temperature is between 800 and 900, and it is subjected to a high temperature thermal annealing to reduce the resistance of titanium silicide. Finally, the silicide metal is aligned to form the,,, and drain / source, respectively. 7 The process of the above-mentioned metallized metal (titanium silicide) in the gate may also cause the silicon atom to expand above the second spacer 14 and react with the titanium metal thereon to form titanium silicide on the second spacer 1 4. Therefore, after the silicidation metal process is completed, the second spacer 14 must be removed in the present invention. Generally, the second spacer 14 can be stripped by using a hot phosphoric acid solution. It is formed by silicon atom diffusion. The stone puppet on the nitrided stone wall will be removed together, so the present invention can obviously solve the problem of bridging or short circuit caused by the silicide metal formed on the wall due to silicon diffusion in the traditional process. A preferred embodiment is described above, and those skilled in the art can make some modifications without departing from the spirit of the present invention. The scope of patent protection should be based on the scope of the attached patent application and its equivalent. The Consumer Property Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs prints a standard for the national and national level.

Claims (1)

530342 A8 B8 C8 D8 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 6. Application scope of patents Application scope of patents: Ί A method of forming self-aligned silicide metal using double gap walls ^ The trend method includes at least: forming the gate dielectric Layer on a semiconductor substrate; forming a polycrystalline silicon layer on the gate dielectric layer; etching the polycrystalline silicon layer and the gate dielectric layer using a lithography and etching process to form a gate structure; forming A first gap wall is formed on a side wall of the gate structure; a second gap wall is formed on a side wall of the first gap wall to form a double gap wall structure surrounding the gate structure; an ion implantation is performed to form a drain electrode and A source electrode is formed in the semiconductor substrate; a conductive layer is formed on the double gap wall, the gate structure and the semiconductor substrate; a first thermal annealing is performed to connect the conductive layer with the drain electrode, the source electrode and The gate reacts to form a silicided metal; remove the metal layer not participating in the reaction; perform a second thermal annealing to reduce the resistance of the silicided metal; and remove the second gap To remove the stone Nan Xi atoms diffused metal silicide is formed in the wall of the second gap. 2. The method according to item 1 of the scope of patent application, wherein the first partition wall mentioned above contains an oxide. This paper size is applicable to China National Standard (CNS) A4 (210 X 297 mm) d I ·. ^ Packing -------- Order --------- ^ 9. (Please read first Note on the back, please fill out this page again) 530342 The method of printing A8 B8 C8 D8 by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs and applying for the scope of patent 3 as described in the first scope of patent application, wherein the above-mentioned second gap wall contains nitride. 4. The method according to item 3 of the patent application range, wherein the second partition wall is removed by using a hot phosphoric acid solution. 5. The method according to item 1 of the patent application range, wherein said conductive layer comprises titanium. 6. The method according to item 1 of the patent application range, wherein the conductive layer comprises titanium / titanium nitride. 7. The method according to item 1 of the patent application range, wherein the first thermal annealing temperature is about 600 to 700 ° C. 8. The method according to item 1 of the patent application range, wherein the temperature of the second thermal annealing is about 800 to 900 ° C. 9. The method according to item 1 of the scope of patent application, wherein after forming the above-mentioned gate structure, it further comprises forming a lightly doped substrate which is not doped in the substrate. 1 0 — A method of forming self-aligned silicide metal by using double gap walls, the paper size of which is applicable to China National Standard (CNS) A4 (210 X 297 mm) Order --------- Φ (Please read the precautions on the back before filling out this page) 530342 A8 B8 C8 _____ D8: The scope of the patent application method at least includes: forming the gate dielectric · layer on a semiconductor substrate Forming a polycrystalline silicon layer on the gate dielectric layer; etching the polycrystalline silicon layer and the gate dielectric using lithography and etching processes to form a gate structure; forming a silicon oxide spacer on the gate dielectric layer On the side wall of the gate; forming a silicon nitride spacer on the side wall of the first spacer to form a double-gap structure surrounding the gate structure; performing an ion implantation to form a drain and a source on the semiconductor substrate Forming a conductive layer containing titanium metal on the double gap wall, the gate electrode and the semiconductor substrate; performing a first thermal annealing to the conductive layer containing titanium metal and the semiconductor substrate and the gate electrode React to form titanium silicide; Removing the titanium-containing conductive layer not participating in the reaction; performing a second thermal anneal to reduce the resistance of the Shi Xihuaqin; and removing the second spacer to remove the second gap formed due to silicon atom diffusion The titanium silicide on the wall. 11. The method according to item No. 20 of the scope of patent application, wherein the above-mentioned gap wall of the nitrided stone is removed by using a hot phosphoric acid solution. (2) The method according to item 10 of the scope of patent application, wherein the above-mentioned conductive layer containing Chin metal includes TiN. This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) (Please read the precautions on the back before filling this page) The Intellectual Property Bureau employee consumer cooperative printed 530342 A8 B8 C8 D8 and applied for the patent scope 13 as in the patent application scope No. 10 method, in which the first thermal annealing temperature was about 600 to 700 ° C. 14 The method according to item 10 of the patent application range, wherein the temperature of the second thermal annealing is about 800 to 900 ° C. 15. The method according to item 10 of the scope of patent application, wherein after forming the above-mentioned gate and structure, it further includes forming a slight impurity drain in the substrate. (Please read the precautions on the back before filling out this page) Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs This paper is in accordance with China National Standard (CNS) A4 (210 X 297 mm)