公开(公告)号：US20190198320A1

公开(公告)日：2019-06-27

申请号：US15903280

申请日：2018-02-23

Applicant: Micron Technology, Inc.

Inventor： David H. Wells ,  Anish A. Khandekar ,  Kunal Shrotri ,  Jie Li

IPC: H01L21/02 ,  H01L27/115

Abstract: A transistor comprises channel material having first and second opposing sides. A gate is on the first side of the channel material and a gate insulator is between the gate and the channel material. A first insulating material has first and second opposing sides, with the first side being adjacent the second side of the channel material. A second insulating material of different composition from that of the first insulating material is adjacent the second side of the first insulating material. The second insulating material has at least one of (a), (b), and (c), where, (a): lower oxygen diffusivity than the first material, (b): net positive charge, and (c): at least two times greater shear strength than the first material. In some embodiments, an array of elevationally-extending strings of memory cells comprises such transistors. Other embodiments, including method, are disclosed.

公开(公告)号：US10297611B1

公开(公告)日：2019-05-21

申请号：US15903307

申请日：2018-02-23

Applicant: Micron Technology, Inc.

Inventor： David H. Wells ,  Luan C. Tran ,  Jie Li ,  Anish A. Khandekar ,  Kunal Shrotri

IPC: H01L27/11556 ,  H01L27/11582 ,  H01L29/51 ,  H01L29/10 ,  H01L29/06 ,  H01L29/788 ,  H01L29/792 ,  H01L29/78 ,  H01L21/02

Abstract: A transistor comprises channel material having first and second opposing sides. A gate is on the first side of the channel material and a gate insulator is between the gate and the channel material. A first insulating material has first and second opposing sides, with the first side being adjacent the second side of the channel material. A second insulating material of different composition from that of the first insulating material is adjacent the second side of the first insulating material. The second insulating material has at least one of (a), (b), and (c), where, (a): lower oxygen diffusivity than the first material, (b): net positive charge, and (c): at least two times greater shear strength than the first material. In some embodiments, an array of elevationally-extending strings of memory cells comprises such transistors. Other embodiments, including method, are disclosed.

公开(公告)号：US10559466B2

公开(公告)日：2020-02-11

申请号：US15903280

申请日：2018-02-23

Applicant: Micron Technology, Inc.

Inventor： David H. Wells ,  Anish A. Khandekar ,  Kunal Shrotri ,  Jie Li

IPC: H01L21/02 ,  H01L27/115

Abstract: A transistor comprises channel material having first and second opposing sides. A gate is on the first side of the channel material and a gate insulator is between the gate and the channel material. A first insulating material has first and second opposing sides, with the first side being adjacent the second side of the channel material. A second insulating material of different composition from that of the first insulating material is adjacent the second side of the first insulating material. The second insulating material has at least one of (a), (b), and (c), where, (a): lower oxygen diffusivity than the first material, (b): net positive charge, and (c): at least two times greater shear strength than the first material. In some embodiments, an array of elevationally-extending strings of memory cells comprises such transistors. Other embodiments, including method, are disclosed.

公开(公告)号：US20190326445A1

公开(公告)日：2019-10-24

申请号：US15957594

申请日：2018-04-19

Applicant: Micron Technology, Inc.

Inventor： Fei Wang ,  Kunal Shrotri ,  Jeffery B. Hull ,  Anish A. Khandekar ,  Duo Mao ,  Zhixin Xu ,  Ee Ee Eng ,  Jie Li ,  Dong Liang

IPC: H01L29/792 ,  H01L29/66 ,  H01L27/1157 ,  G11C16/04 ,  G11C16/08 ,  H01L21/28

Abstract: A method of forming Si3Nx, where “x” is less than 4 and at least 3, comprises decomposing a Si-comprising precursor molecule into at least two decomposition species that are different from one another, at least one of the at least two different decomposition species comprising Si. An outer substrate surface is contacted with the at least two decomposition species. At least one of the decomposition species that comprises Si attaches to the outer substrate surface to comprise an attached species. The attached species is contacted with a N-comprising precursor that reacts with the attached species to form a reaction product comprising Si3Nx, where “x” is less than 4 and at least 3. Other embodiments are disclosed, including constructions made in accordance with method embodiments of the invention and constructions independent of method of manufacture.

公开(公告)号：US20190013404A1

公开(公告)日：2019-01-10

申请号：US15645202

申请日：2017-07-10

Applicant: Micron Technology, Inc.

Inventor： Chris M. Carlson ,  Hung-Wei Liu ,  Jie Li ,  Dimitrios Pavlopoulos

IPC: H01L29/78 ,  H01L29/16 ,  H01L29/20 ,  H01L27/11524 ,  H01L27/11556 ,  H01L27/1157 ,  H01L27/11582 ,  H01L21/02 ,  H01L29/788 ,  H01L29/792

Abstract: Some embodiments include device having a gate spaced from semiconductor channel material by a dielectric region, and having nitrogen-containing material directly against the semiconductor channel material and on an opposing side of the semiconductor channel material from the dielectric region. Some embodiments include a device having a gate spaced from semiconductor channel material by a dielectric region, and having nitrogen within at least some of the semiconductor channel material. Some embodiments include a NAND memory array which includes a vertical stack of alternating insulative levels and wordline levels. Channel material extends vertically along the stack. Charge-storage material is between the channel material and the wordline levels. Dielectric material is between the channel material and the charge-storage material. Nitrogen is within the channel material. Some embodiments include methods of forming NAND memory arrays.

公开(公告)号：US10083984B2

公开(公告)日：2018-09-25

申请号：US15679727

申请日：2017-08-17

Applicant: Micron Technology, Inc.

Inventor： Jie Li ,  James Mathew ,  Kunal Shrotri ,  Luan C. Tran ,  Gordon A. Haller ,  Yangda Zhang ,  Hongpeng Yu ,  Minsoo Lee

IPC: H01L29/76 ,  H01L27/11582 ,  H01L27/11556 ,  H01L27/11524 ,  H01L27/1157

CPC classification number: H01L27/11582 ,  H01L27/11524 ,  H01L27/11556 ,  H01L27/1157 ,  H05K999/99

Abstract: Some embodiments include an integrated structure having a first opening extending through a stack of alternating insulative levels and conductive levels. A nitride structure is within the first opening and narrows the first opening to form a second opening. Detectable oxide is between the nitride structure and one or more of the conductive levels. Some embodiments include an integrated structure having a conductive material, a select device gate material over the conductive material, and vertically-stacked conductive levels over the select device gate material. A first opening extends through the vertically-stacked levels to the conductive material and has opposing sidewalls along a cross-section. Nitride liners are along the sidewalls of the first opening. Detectable oxide is between at least one of the nitride liners and one or more of the vertically-stacked conductive levels. Some embodiments include methods for forming integrated structures.

公开(公告)号：US09773805B1

公开(公告)日：2017-09-26

申请号：US15187632

申请日：2016-06-20

Applicant: Micron Technology, Inc.

Inventor： Jie Li ,  James Mathew ,  Kunal Shrotri ,  Luan C. Tran ,  Gordon A. Haller ,  Yangda Zhang ,  Hongpeng Yu ,  Minsoo Lee

IPC: H01L29/51 ,  H01L27/11582 ,  H01L27/11556

CPC classification number: H01L27/11582 ,  H01L27/11524 ,  H01L27/11556 ,  H01L27/1157

Abstract: Some embodiments include an integrated structure having a first opening extending through a stack of alternating insulative levels and conductive levels. A nitride structure is within the first opening and narrows the first opening to form a second opening. Detectable oxide is between the nitride structure and one or more of the conductive levels. Some embodiments include an integrated structure having a conductive material, a select device gate material over the conductive material, and vertically-stacked conductive levels over the select device gate material. A first opening extends through the vertically-stacked levels to the conductive material and has opposing sidewalls along a cross-section. Nitride liners are along the sidewalls of the first opening. Detectable oxide is between at least one of the nitride liners and one or more of the vertically-stacked conductive levels. Some embodiments include methods for forming integrated structures.