Manufacturing method of a semiconductor device using multiple etching mask
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01L-029/00
H01L-029/786
H01L-029/66
출원번호
US-0217080
(2016-07-22)
등록번호
US-9825177
(2017-11-21)
우선권정보
JP-2015-150866 (2015-07-30)
발명자
/ 주소
Yamazaki, Shunpei
Sasagawa, Shinya
Okamoto, Satoru
Kurata, Motomu
Endo, Yuta
출원인 / 주소
Semiconductor Energy Laboratory Co., Ltd.
대리인 / 주소
Robinson Intellectual Property Law Office
인용정보
피인용 횟수 :
0인용 특허 :
36
초록▼
A semiconductor device which includes a transistor having a miniaturized structure is provided. A first insulator is provided over a stack in which a semiconductor, a first conductor, and a second conductor are stacked in this order. Over the first insulator, an etching mask is formed. Using the etc
A semiconductor device which includes a transistor having a miniaturized structure is provided. A first insulator is provided over a stack in which a semiconductor, a first conductor, and a second conductor are stacked in this order. Over the first insulator, an etching mask is formed. Using the etching mask, the first insulator and the second conductor are etched until the first conductor is exposed. After etching the first conductor until the semiconductor is exposed so as to form a groove having a smaller width than the second conductor, a second insulator and a third conductor are formed sequentially.
대표청구항▼
1. A method for manufacturing a semiconductor device, comprising the steps of: forming a first semiconductor, a first conductor, a second conductor, and a first etching mask sequentially over a first insulator;forming a third conductor by etching part of the second conductor using the first etching
1. A method for manufacturing a semiconductor device, comprising the steps of: forming a first semiconductor, a first conductor, a second conductor, and a first etching mask sequentially over a first insulator;forming a third conductor by etching part of the second conductor using the first etching mask until the first conductor is exposed;forming a fourth conductor and a second semiconductor by etching part of the first conductor and part of the first semiconductor using at least one of the first etching mask and the third conductor until the first insulator is exposed;removing the first etching mask;forming a second insulator over the first insulator, the second semiconductor, the fourth conductor, and the third conductor;forming a second etching mask over the second insulator;forming a third insulator by etching part of the second insulator using the second etching mask until the third conductor and the first insulator are exposed;forming a fifth conductor and a sixth conductor by etching part of the third conductor using the second etching mask and the third insulator until the fourth conductor is exposed;removing the second etching mask;forming a third etching mask over the third insulator, the fourth conductor, the fifth conductor, and the sixth conductor;forming a seventh conductor and an eighth conductor by etching part of the fourth conductor using the third etching mask until the second semiconductor is exposed;removing the third etching mask; andforming a fourth insulator and a ninth conductor sequentially over the second semiconductor, the seventh conductor, and the eighth conductor. 2. A method for manufacturing a semiconductor device, comprising the steps of: forming a first semiconductor, a first conductor, a second conductor, and a first etching mask sequentially over a first insulator;forming a third conductor by etching part of the second conductor using the first etching mask;forming a fourth conductor and a second semiconductor by etching part of the first conductor and part of the first semiconductor using at least one of the first etching mask and the third conductor until the first insulator is exposed, and then removing the first etching mask;forming a second insulator over the first insulator, the second semiconductor, the fourth conductor, and the third conductor;forming a second etching mask over the second insulator;forming a third insulator by etching part of the second insulator using the second etching mask until the third conductor and the first insulator are exposed;forming a fifth conductor and a sixth conductor by etching part of the third conductor using the second etching mask and the third insulator until the fourth conductor is exposed, and then removing the second etching mask;forming a first layer over the third insulator, the fourth conductor, the fifth conductor, and the sixth conductor;forming a second layer by anisotropically etching part of the first layer until first part of the fourth conductor is exposed;forming a seventh conductor and an eighth conductor by etching second part of the fourth conductor using the second layer, the fifth conductor, the sixth conductor, and the third insulator until the second semiconductor is exposed, and then removing the second layer; andforming a fourth insulator and a ninth conductor sequentially over the second semiconductor, the seventh conductor, and the eighth conductor. 3. A method for manufacturing a semiconductor device, comprising the steps of: forming a first semiconductor, a first conductor, a second conductor, and a first etching mask sequentially over a first insulator;forming a third conductor by etching part of the second conductor using the first etching mask;forming a fourth conductor and a second semiconductor by etching part of the first conductor and part of the first semiconductor using at least one of the first etching mask and the third conductor until the first insulator is exposed, and then removing the first etching mask;forming a second insulator over the first insulator, the second semiconductor, the fourth conductor, and the third conductor;forming a second etching mask over the second insulator;forming a third insulator by etching part of the second insulator using the second etching mask until the third conductor and the first insulator are exposed;forming a fifth conductor and a sixth conductor by etching part of the third conductor using the second etching mask and the third insulator until the fourth conductor is exposed, and then removing the second etching mask;causing deposition and etching of an organic substance by applying a bias in a direction perpendicular to a top surface of the first insulator and generating plasma using gas including carbon and halogen;forming a seventh conductor and an eighth conductor by etching part of the fourth conductor using the organic substance, the fifth conductor, the sixth conductor, and the third insulator, and then removing the organic substance; andforming a fourth insulator and a ninth conductor sequentially over the second semiconductor, the seventh conductor, and the eighth conductor. 4. A method for manufacturing a semiconductor device, comprising the steps of: forming a first semiconductor, a first conductor, a second conductor, and a first etching mask sequentially over a first insulator;forming a third conductor by etching part of the second conductor using the first etching mask;forming a fourth conductor and a second semiconductor by etching part of the first conductor and part of the first semiconductor using at least one of the first etching mask and the third conductor until the first insulator is exposed, and then removing the first etching mask;forming a second insulator over the first insulator, the second semiconductor, the fourth conductor, and the third conductor;forming a second etching mask over the second insulator;forming a third insulator by etching part of the second insulator using the second etching mask until the third conductor and the first insulator are exposed;forming a fifth conductor and a sixth conductor by etching part of the third conductor using the second etching mask and the third insulator until the fourth conductor is exposed, and then removing the second etching mask;forming an oxide or a nitride on a surface of the fifth conductor and a surface of the sixth conductor by oxidizing treatment or nitriding treatment;forming a seventh conductor and an eighth conductor by etching part of the fourth conductor using the oxide or the nitride, the fifth conductor, the sixth conductor, and the third insulator until the second semiconductor is exposed, and then removing the oxide or the nitride; andforming a fourth insulator and a ninth conductor sequentially over the second semiconductor, the seventh conductor, and the eighth conductor. 5. The method for manufacturing a semiconductor device, according to claim 1, wherein the first conductor has a thickness smaller than a thickness of the second conductor. 6. The method for manufacturing a semiconductor device, according to claim 1, further comprising a fifth insulator between the first semiconductor and the first insulator, wherein the fifth insulator comprises two or more kinds of elements that are included in the first semiconductor. 7. The method for manufacturing a semiconductor device, according to claim 1, further comprising a sixth insulator between the second semiconductor and the fourth insulator and between the third insulator and the fourth insulator, wherein the sixth insulator comprises two or more kinds of elements that are included in the second semiconductor. 8. The method for manufacturing a semiconductor device, according to claim 1, wherein the first semiconductor comprises indium, an element M, and zinc, andwherein the element M is aluminum, gallium, yttrium, or tin. 9. The method for manufacturing a semiconductor device, according to claim 2, wherein the first conductor has a thickness smaller than a thickness of the second conductor. 10. The method for manufacturing a semiconductor device, according to claim 2, further comprising a fifth insulator between the first semiconductor and the first insulator, wherein the fifth insulator comprises two or more kinds of elements that are included in the first semiconductor. 11. The method for manufacturing a semiconductor device, according to claim 2, further comprising a sixth insulator between the second semiconductor and the fourth insulator and between the third insulator and the fourth insulator, wherein the sixth insulator comprises two or more kinds of elements that are included in the second semiconductor. 12. The method for manufacturing a semiconductor device, according to claim 2, wherein the first semiconductor comprises indium, an element M, and zinc, andwherein the element M is aluminum, gallium, yttrium, or tin. 13. The method for manufacturing a semiconductor device, according to claim 3, wherein the first conductor has a thickness smaller than a thickness of the second conductor. 14. The method for manufacturing a semiconductor device, according to claim 3, further comprising a fifth insulator between the first semiconductor and the first insulator, wherein the fifth insulator comprises two or more kinds of elements that are included in the first semiconductor. 15. The method for manufacturing a semiconductor device, according to claim 3, further comprising a sixth insulator between the second semiconductor and the fourth insulator and between the third insulator and the fourth insulator, wherein the sixth insulator comprises two or more kinds of elements that are included in the second semiconductor. 16. The method for manufacturing a semiconductor device, according to claim 3, wherein the first semiconductor comprises indium, an element M, and zinc, andwherein the element M is aluminum, gallium, yttrium, or tin. 17. The method for manufacturing a semiconductor device, according to claim 4, wherein the first conductor has a thickness smaller than a thickness of the second conductor. 18. The method for manufacturing a semiconductor device, according to claim 4, further comprising a fifth insulator between the first semiconductor and the first insulator, wherein the fifth insulator comprises two or more kinds of elements that are included in the first semiconductor. 19. The method for manufacturing a semiconductor device, according to claim 4, further comprising a sixth insulator between the second semiconductor and the fourth insulator and between the third insulator and the fourth insulator, wherein the sixth insulator comprises two or more kinds of elements that are included in the second semiconductor. 20. The method for manufacturing a semiconductor device, according to claim 4, wherein the first semiconductor comprises indium, an element M, and zinc, andwherein the element M is aluminum, gallium, yttrium, or tin.
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