公开(公告)号：US20210265216A1

公开(公告)日：2021-08-26

申请号：US16799254

申请日：2020-02-24

Applicant: Micron Technology, Inc.

Inventor： Bo Zhao ,  Nancy M. Lomeli ,  Lifang Xu ,  Adam L. Olson

IPC: H01L21/8229 ,  H01L21/768

Abstract: A microelectronic device comprises a microelectronic device structure having a memory array region and a staircase region. The microelectronic device structure comprises a stack structure having tiers each comprising a conductive structure and an insulative structure; staircase structures confined within the staircase region and having steps comprising edges of the tiers of the stack structure within the deck and the additional deck; and semiconductive pillar structures confined within the memory array region and extending through the stack structures. The stack structure comprises a deck comprising a group of the tiers; an additional deck overlying the deck and comprising an additional group of the tiers; and an interdeck section between the deck and the additional deck and comprising a dielectric structure confined within the memory array region, and another group of the tiers within vertical boundaries of the dielectric structure and confined within of the staircase region.

公开(公告)号：US11056497B2

公开(公告)日：2021-07-06

申请号：US16407504

申请日：2019-05-09

Applicant: Micron Technology, inc.

Inventor： John D. Hopkins ,  Justin B. Dorhout ,  Damir Fazil ,  Nancy M. Lomeli

IPC: H01L27/11556 ,  G11C5/06 ,  H01L27/11582 ,  H01L27/1157 ,  H01L27/11524

Abstract: A method used in forming a memory array comprises forming a conductive tier atop a substrate, with the conductive tier comprising openings therein. An insulator tier is formed atop the conductive tier and the insulator tier comprises insulator material that extends downwardly into the openings in the conductive tier. A stack comprising vertically-alternating insulative tiers and wordline tiers is formed above the insulator tier. Strings comprising channel material that extend through the insulative tiers and the wordline tiers are formed. The channel material of the strings is directly electrically coupled to conductive material in the conductive tier. Structure independent of method is disclosed.

公开(公告)号：US20210167081A1

公开(公告)日：2021-06-03

申请号：US16700877

申请日：2019-12-02

Applicant: Micron Technology, Inc.

Inventor： John D. Hopkins ,  Justin B. Dorhout ,  Nirup Bandaru ,  Damir Fazil ,  Nancy M. Lomeli ,  Jivaan Kishore Jhothiraman ,  Purnima Narayanan

IPC: H01L27/11582 ,  H01L27/11524 ,  H01L27/11519 ,  H01L27/11556 ,  H01L27/11565 ,  H01L27/1157

Abstract: Some embodiments include an integrated assembly having a first deck which has first memory cells, and having a second deck which has second memory cells. The first memory cells have first control gate regions which include a first conductive material vertically between horizontally-extending bars of a second conductive material. The second memory cells have second control gate regions which include a fourth conductive material along an outer surface of a third conductive material. A pillar passes through the first and second decks. The pillar includes a dielectric-barrier material laterally surrounding a channel material. The first and fourth materials are directly against the dielectric-barrier material. Some embodiments include methods of forming integrated assemblies.

公开(公告)号：US20190198518A1

公开(公告)日：2019-06-27

申请号：US15852955

申请日：2017-12-22

Applicant: Micron Technology, Inc.

Inventor： Nancy M. Lomeli ,  Tom George ,  Jordan D. Greenlee ,  Scott M. Pook ,  John Mark Meldrim

IPC: H01L27/11582 ,  H01L29/10 ,  H01L23/535 ,  G11C16/04 ,  H01L21/768 ,  H01L21/02 ,  H01L27/11556

CPC classification number: H01L27/11582 ,  G11C16/0483 ,  H01L21/02532 ,  H01L21/76807 ,  H01L21/76843 ,  H01L21/76877 ,  H01L23/535 ,  H01L27/11556 ,  H01L29/1037 ,  H01L29/7883 ,  H01L29/7889 ,  H01L29/7926

Abstract: Some embodiments include a conductive structure of an integrated circuit. The conductive structure includes an upper primary portion, with the upper primary portion having a first conductive constituent configured as a container. The container has a bottom, and a pair of sidewalls extending upwardly from the bottom. An interior region of the container is over the bottom and between the sidewalls. The upper primary portion includes a second conductive constituent configured as a mass filling the interior region of the container. The second conductive constituent is a different composition than the first conductive constituent. One or more conductive projections join to the upper primary portion and extend downwardly from the upper primary portion. Some embodiments include assemblies comprising memory cells over conductive structures. Some embodiments include methods of forming conductive structures.

公开(公告)号：US12250812B2

公开(公告)日：2025-03-11

申请号：US18094906

申请日：2023-01-09

Applicant: Micron Technology, Inc.

Inventor： Jordan D. Greenlee ,  Nancy M. Lomeli ,  John D. Hopkins ,  Jiewei Chen ,  Indra V. Chary ,  Jun Fang ,  Vladimir Samara ,  Kaiming Luo ,  Rita J. Klein ,  Xiao Li ,  Vinayak Shamanna

IPC: H01L21/306 ,  G11C5/02 ,  G11C5/06 ,  G11C16/04 ,  H10B41/27 ,  H10B43/27 ,  H10B43/30

Abstract: Some embodiments include an integrated assembly having a source structure, and having a stack of alternating conductive levels and insulative levels over the source structure. Cell-material-pillars pass through the stack. The cell-material-pillars are arranged within a configuration which includes a first memory-block-region and a second memory-block-region. The cell-material-pillars include channel material which is electrically coupled with the source structure. Memory cells are along the conductive levels and include regions of the cell-material-pillars. A panel is between the first and second memory-block-regions. The panel has a first material configured as a container shape. The container shape defines opposing sides and a bottom of a cavity. The panel has a second material within the cavity. The second material is compositionally different from the first material. Some embodiments include methods of forming integrated assemblies.

公开(公告)号：US12225721B2

公开(公告)日：2025-02-11

申请号：US17841925

申请日：2022-06-16

Applicant: Micron Technology, Inc.

Inventor： John D. Hopkins ,  Nancy M. Lomeli

IPC: H10B41/27 ,  H10B41/10 ,  H10B41/35 ,  H10B43/10 ,  H10B43/27 ,  H10B43/35

Abstract: A method used in forming a memory array comprising strings of memory cells comprises forming a conductor tier comprising conductor material on a substrate. A stack comprising vertically-alternating first tiers and second tiers is formed above the conductor tier. The stack comprises laterally-spaced memory-block regions. Channel-material strings extend through the first tiers and the second tiers. Material of the first tiers is of different composition from material of the second tiers. Spaced insulator-material bodies are formed in and longitudinally-along opposing sides of individual of the memory-block regions in a lowest of the first tiers. After forming the spaced insulator-material bodies, conductive material is formed in the lowest first tier that directly electrically couples together the channel material of individual of the channel-material strings and the conductor material of the conductor tier. Other embodiments, including structure independent of method, are disclosed.

公开(公告)号：US20240251556A1

公开(公告)日：2024-07-25

申请号：US18597695

申请日：2024-03-06

Applicant: Micron Technology, Inc.

Inventor： John D. Hopkins ,  Nancy M. Lomeli

IPC: H10B43/27 ,  H01L21/225 ,  H10B41/27

CPC classification number: H10B43/27 ,  H01L21/2254 ,  H10B41/27

Abstract: A liner is formed laterally-outside of individual channel-material strings in one of first tiers and in one of second tiers. The liners are isotropically etched to form void-spaces in the one second tier above the one first tier. Individual of the void-spaces are laterally-between the individual channel-material strings and the second-tier material in the one second tier. Conductively-doped semiconductive material is formed against sidewalls of the channel material of the channel-material strings in the one first tier and that extends upwardly into the void-spaces in the one second tier. The conductively-doped semiconductive material is heated to diffuse conductivity-increasing dopants therein from the void-spaces laterally into the channel material laterally there-adjacent and upwardly into the channel material that is above the void-spaces.

公开(公告)号：US11895834B2

公开(公告)日：2024-02-06

申请号：US17674478

申请日：2022-02-17

Applicant: Micron Technology, Inc.

Inventor： Jiewei Chen ,  Jordan D. Greenlee ,  Mithun Kumar Ramasahayam ,  Nancy M. Lomeli

IPC: H10B41/10 ,  G11C16/04 ,  H10B41/27 ,  H10B43/10 ,  H10B43/27 ,  H10B41/35 ,  H10B43/35

CPC classification number: H10B41/10 ,  G11C16/0483 ,  H10B41/27 ,  H10B43/10 ,  H10B43/27 ,  H10B41/35 ,  H10B43/35

Abstract: A method used in forming a memory array comprising strings of memory cells comprises forming memory blocks individually comprising a vertical stack comprising alternating insulative tiers and conductive tiers. Channel-material strings extend through the insulative tiers and the conductive tiers. Horizontally-elongated trenches are between immediately-laterally-adjacent of the memory blocks. Conductor material is in and extends elevationally along sidewalls of the trenches laterally-over the conductive tiers and the insulative tiers and directly electrically couples together conducting material of individual of the conductive tiers. The conductor material is exposed to oxidizing conditions to form an insulative oxide laterally-through the conductor material laterally-over individual of the insulative tiers to separate the conducting material of the individual conductive tiers from being directly electrically coupled together by the conductor material. Additional embodiments are disclosed.

公开(公告)号：US20230397421A1

公开(公告)日：2023-12-07

申请号：US17876271

申请日：2022-07-28

Applicant: Micron Technology, Inc.

Inventor： Mallesh Rajashekharaiah ,  Lifang Xu ,  Nancy M. Lomeli

IPC: H01L27/11582 ,  H01L27/11519 ,  H01L27/11524 ,  H01L27/11556 ,  H01L27/11565 ,  H01L27/1157

CPC classification number: H01L27/11582 ,  H01L27/11519 ,  H01L27/11524 ,  H01L27/11556 ,  H01L27/11565 ,  H01L27/1157

Abstract: Some embodiments include apparatuses and methods of forming the apparatuses. One of the apparatuses includes tiers located one over another, the tiers including conductive materials that form part of respective control gates for memory cells of the apparatus; a staircase structure formed in the tiers, the conductive materials including respective portions that collectively form a part of the staircase structure, the staircase structure including a sidewall on a side of the staircase structure; a dielectric liner formed on the sidewall; recesses formed in respective tiers and adjacent the sidewall such that respective portions of the dielectric liner are located in the recesses; and a contact structure extending through a portion of the dielectric liner, wherein the portions of the dielectric liner are between the contract structure and the conductive materials.

公开(公告)号：US11785775B2

公开(公告)日：2023-10-10

申请号：US17153740

申请日：2021-01-20

Applicant: Micron Technology, Inc.

Inventor： Lifang Xu ,  Shuangqiang Luo ,  Harsh Narendrakumar Jain ,  Nancy M. Lomeli ,  Christopher J. Larsen

IPC: H10B43/35 ,  H01L23/522 ,  H01L23/00 ,  H01L23/528 ,  H10B41/27 ,  H10B41/35 ,  H10B41/41 ,  H10B43/27 ,  H10B43/40

CPC classification number: H10B43/35 ,  H01L23/5226 ,  H01L23/5283 ,  H01L23/562 ,  H10B41/27 ,  H10B41/35 ,  H10B41/41 ,  H10B43/27 ,  H10B43/40

Abstract: A method of forming a microelectronic device includes forming a microelectronic device structure. The microelectronic device structure includes a stack structure having an alternating sequence of conductive structures and insulative structures, an upper stadium structure, a lower stadium structure, and a crest region defined between a first stair step structure of the upper stadium structure and a second stair step structure of the lower stadium structure. The stack structure further includes pillar structures extending through the stack structure and dielectric structures interposed between neighboring pillar structures within the upper stadium structure. The method further includes forming a trench in the crest region of the stack structure between two dielectric structures of the dielectric structures on opposing sides of another dielectric structure and filling the trench with a dielectric material. The trench partially overlaps with the dielectric structures.