The present invention provides a plating method and a plating apparatus which can securely form a metal film (protective film) by electroless plating on the exposed surfaces of a base metal, such as interconnects without the formation of voids in the base metal. The plating method including providin
The present invention provides a plating method and a plating apparatus which can securely form a metal film (protective film) by electroless plating on the exposed surfaces of a base metal, such as interconnects without the formation of voids in the base metal. The plating method including providing a semiconductor device having an embedded interconnect structure, carrying out pretreatment of interconnects with a pre-treatment liquid containing a surface activating agent for the interconnects, carrying out catalytic treatment of the interconnects with a catalytic treatment liquid containing catalyst metal ions and an excessive etching inhibitor for the interconnects, and forming a protective film by electroless plating selectively on the surfaces of the interconnects.
대표청구항▼
What is claimed is: 1. A plating method comprising: carrying out pretreatment of a surface of a base metal of a substrate using a pre-treatment liquid containing a surface activating agent for activating the surface of the base metal and an excessive etching inhibitor for inhibiting excessive etchi
What is claimed is: 1. A plating method comprising: carrying out pretreatment of a surface of a base metal of a substrate using a pre-treatment liquid containing a surface activating agent for activating the surface of the base metal and an excessive etching inhibitor for inhibiting excessive etching of the base metal; after said carrying out pretreatment of the surface of the base metal of the substrate, contacting the substrate with a catalytic treatment liquid so as to apply a catalyst to the surface of the base metal of the substrate; after said contacting the substrate with the catalytic treatment liquid, forming a metal film by electroless plating on the surface of the base metal of the substrate; and after said contacting the substrate with the catalytic treatment liquid, carrying out a post-catalyzation treatment of the surface of the base metal by jetting a post-treatment liquid toward the surface of the base metal of the substrate so as remove any excess of the excessive etching inhibitor. 2. The plating method according to claim 1, wherein the surface activating agent for activating the surface of the base metal is an inorganic acid, an organic acid, an inorganic alkali or an organic alkali. 3. The plating method according to claim 1, wherein the excessive etching inhibitor for inhibiting excessive etching of the base metal is a compound having an atom chemically adsorbed to the base metal. 4. The plating method according to claim 3, wherein the atom chemically adsorbed to the base metal is an N atom. 5. The plating method according to claim 4, wherein the excessive etching inhibitor for inhibiting excessive etching of the base metal is a compound having an amine structure. 6. The plating method according to claim 1, wherein the substrate is a semiconductor device having an embedded interconnect structure, wherein the base metal comprises exposed interconnects of the embedded interconnect structure, and the metal film comprises a protective film selectively formed on the surface of the base metal. 7. The plating method according to claim 6, wherein the interconnects of the semiconductor device are composed of Cu, a Cu alloy, Ag or an Ag alloy. 8. The plating method according to claim 6, wherein the protective film is composed of CoWP, CoWB, CoP, CoB, a Co alloy, NiWP, NiWB, NiP, NiB or a Ni alloy. 9. The plating method according to claim 1, wherein the base metal is copper. 10. The plating method according to claim 1, wherein the post-treatment liquid is an alkali solution. 11. The plating method according to claim 1, further comprising, after said carrying out of the post catalyzation treatment of the surface of the base metal, rinsing the surface of the base metal with pure water. 12. The plating method according to claim 1, further comprising, after said forming the metal film by electroless plating, carrying out a post-plating treatment on a surface of the metal film to remove plating residue. 13. The plating method according to claim 12, wherein the post-plating treatment comprises applying a physical force to the surface of the metal film while applying a treatment liquid to the surface of the metal film. 14. The plating method according to claim 1, wherein the catalyst is Pd, Sn, Ag, Pt, Au, Cu, Co, or Ni. 15. A plating method comprising: carrying out pretreatment of a copper surface of a substrate using a pre-treatment liquid containing a surface activating agent for activating the copper surface and an excessive etching inhibitor for inhibiting excessive etching of the substrate; after said carrying out pretreatment of the copper surface of the substrate, contacting the substrate with a catalytic treatment liquid so as to apply a catalyst to the copper surface of the substrate; after said contacting the substrate with the catalytic treatment liquid, forming a metal film by electroless plating on the copper surface of the substrate; and after said contacting the substrate with the catalytic treatment liquid, carrying out a post-catalyzation treatment of the copper surface by jetting a post-treatment liquid toward the copper surface of the substrate so as remove any excess of the excessive etching inhibitor. 16. The plating method according to claim 15, wherein the post-treatment liquid is an alkali solution. 17. The plating method according to claim 15, further comprising, after said carrying out of the post catalyzation treatment of the copper surface, rinsing the copper surface with pure water. 18. The plating method according to claim 15, further comprising, after said forming the metal film by electroless plating, carrying out a post-plating treatment on a surface of the metal film to remove plating residue. 19. The plating method according to claim 18, wherein the post-plating treatment comprises applying a physical force to the surface of the metal film while applying a treatment liquid to the surface of the metal film. 20. The plating method according to claim 15, wherein the catalyst is Pd, Sn, Ag, Pt, Au, Cu, Co, or Ni.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (4)
William J. Cote ; Daniel C. Edelstein ; Naftali E. Lustig, Chemical-mechanical planarization of barriers or liners for copper metallurgy.
Dubin Valery M. (Cupertino CA) Schacham-Diamand Yosi (Ithaca NY) Zhao Bin (Irvine CA) Vasudev Prahalad K. (Austin TX) Ting Chiu H. (Saratoga CA), Use of cobalt tungsten phosphide as a barrier material for copper metallization.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.