公开(公告)号：US11069598B2

公开(公告)日：2021-07-20

申请号：US16444634

申请日：2019-06-18

Applicant: Micron Technology, Inc.

Inventor： Indra V. Chary ,  Chet E. Carter ,  Anilkumar Chandolu ,  Justin B. Dorhout ,  Jun Fang ,  Matthew J. King ,  Brett D. Lowe ,  Matthew Park ,  Justin D. Shepherdson

IPC: H01L23/48 ,  H01L27/11582 ,  H01L27/11565 ,  H01L21/311 ,  H01L21/033 ,  H01L21/768 ,  H01L21/28 ,  H01L27/11556 ,  H01L27/11519

Abstract: A method used in forming a memory array and conductive through-array-vias (TAVs) comprises forming a stack comprising vertically-alternating insulative tiers and wordline tiers. A mask is formed comprising horizontally-elongated trench openings and operative TAV openings above the stack. Etching is conducted of unmasked portions of the stack through the trench and operative TAV openings in the mask to form horizontally-elongated trench openings in the stack and to form operative TAV openings in the stack. Conductive material is formed in the operative TAV openings in the stack to form individual operative TAVs in individual of the operative TAV openings in the stack. A wordline-intervening structure is formed in individual of the trench openings in the stack.

公开(公告)号：US20210143167A1

公开(公告)日：2021-05-13

申请号：US17151344

申请日：2021-01-18

Applicant: Micron Technology, Inc.

Inventor： Collin Howder ,  Chet E. Carter

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

Abstract: A method used in forming a memory array comprises forming a substrate comprising a conductor tier comprising upper conductor material, lower metal material, and intervening metal material vertically between the upper conductor material and the lower metal material. The intervening metal material, the upper conductor material, and the lower metal material are of different compositions relative one another. The intervening metal material has a reduction potential that is less than 0.7V away from the reduction potential of the upper conductor material. A stack comprising vertically-alternating insulative tiers and conductive tiers is formed above the conductor tier. Channel material is formed through the insulative tiers and the conductive tiers. Horizontally-elongated trenches are formed through the stack to the conductor tier. Elevationally-extending strings of memory cells are formed in the stack. Individual of the memory cells comprise the channel material, a gate region that is part of a conductive line in individual of the conductive tiers, and a memory structure laterally between the gate region and the channel material in the individual conductive tiers. Other methods and structure independent of method are disclosed.

公开(公告)号：US10263007B2

公开(公告)日：2019-04-16

申请号：US16002129

申请日：2018-06-07

Applicant: Micron Technology, Inc.

Inventor： Justin B. Dorhout ,  Kunal R. Parekh ,  Matthew Park ,  Joseph Neil Greeley ,  Chet E. Carter ,  Martin C. Roberts ,  Indra V. Chary ,  Vinayak Shamanna ,  Ryan Meyer ,  Paolo Tessariol

IPC: H01L21/336 ,  H01L27/11556 ,  H01L27/11519 ,  H01L27/11565 ,  H01L27/11582 ,  H01L27/11573

Abstract: An array of elevationally-extending strings of memory cells, where the memory cells individually comprise a programmable charge storage transistor, comprises a substrate comprising a first region containing memory cells and a second region not containing memory cells laterally of the first region. The first region comprises vertically-alternating tiers of insulative material and control gate material. The second region comprises vertically-alternating tiers of different composition insulating materials laterally of the first region. A channel pillar comprising semiconductive channel material extends elevationally through multiple of the vertically-alternating tiers within the first region. Tunnel insulator, programmable charge storage material, and control gate blocking insulator are between the channel pillar and the control gate material of individual of the tiers of the control gate material within the first region. Conductive vias extend elevationally through the vertically-alternating tiers in the second region. An elevationally-extending wall is laterally between the first and second regions. The wall comprises the programmable charge storage material and the semiconductive channel material. Other embodiments and aspects, including method, are disclosed.

公开(公告)号：US20190043890A1

公开(公告)日：2019-02-07

申请号：US16158039

申请日：2018-10-11

Applicant: Micron Technology, Inc.

Inventor： Justin B. Dorhout ,  Fei Wang ,  Chet E. Carter ,  Ian Laboriante ,  John D. Hopkins ,  Kunal Shrotri ,  Ryan Meyer ,  Vinayak Shamanna ,  Kunal R. Parekh ,  Martin C. Roberts ,  Matthew Park

IPC: H01L27/11582 ,  H01L23/528 ,  H01L23/532 ,  H01L27/1157

CPC classification number: H01L27/11582 ,  H01L23/528 ,  H01L23/53257 ,  H01L27/1157

Abstract: Some embodiments include an integrated structure having vertically-stacked conductive levels alternating with dielectric levels. A layer over the conductive levels includes silicon, nitrogen, and one or more of carbon, oxygen, boron and phosphorus. In some embodiments the vertically-stacked conductive levels are wordline levels within a NAND memory array. Some embodiments include an integrated structure having vertically-stacked conductive levels alternating with dielectric levels. Vertically-stacked NAND memory cells are along the conductive levels within a memory array region. A staircase region is proximate the memory array region. The staircase region has electrical contacts in one-to-one correspondence with the conductive levels. A layer is over the memory array region and over the staircase region. The layer includes silicon, nitrogen, and one or more of carbon, oxygen, boron and phosphorus.

公开(公告)号：US10157933B2

公开(公告)日：2018-12-18

申请号：US15133119

申请日：2016-04-19

Applicant: Micron Technology, Inc.

Inventor： Justin B. Dorhout ,  Fei Wang ,  Chet E. Carter ,  Ian Laboriante ,  John D. Hopkins ,  Kunal Shrotri ,  Ryan Meyer ,  Vinayak Shamanna ,  Kunal R. Parekh ,  Martin C. Roberts ,  Matthew Park

IPC: H01L29/792 ,  H01L27/11582 ,  H01L23/528 ,  H01L23/532

Abstract: Some embodiments include an integrated structure having vertically-stacked conductive levels alternating with dielectric levels. A layer over the conductive levels includes silicon, nitrogen, and one or more of carbon, oxygen, boron and phosphorus. In some embodiments the vertically-stacked conductive levels are wordline levels within a NAND memory array. Some embodiments include an integrated structure having vertically-stacked conductive levels alternating with dielectric levels. Vertically-stacked NAND memory cells are along the conductive levels within a memory array region. A staircase region is proximate the memory array region. The staircase region has electrical contacts in one-to-one correspondence with the conductive levels. A layer is over the memory array region and over the staircase region. The layer includes silicon, nitrogen, and one or more of carbon, oxygen, boron and phosphorus.

公开(公告)号：US20180047739A1

公开(公告)日：2018-02-15

申请号：US15231950

申请日：2016-08-09

Applicant: Micron Technology, Inc.

Inventor： Justin B. Dorhout ,  Kunal R. Parekh ,  Matthew Park ,  Joseph Neil Greeley ,  Chet E. Carter ,  Martin C. Roberts ,  Indra V. Chary ,  Vinayak Shamanna ,  Ryan Meyer ,  Paolo Tessariol

IPC: H01L27/115

CPC classification number: H01L27/11556 ,  H01L27/11519 ,  H01L27/11565 ,  H01L27/11573 ,  H01L27/11582

Abstract: An array of elevationally-extending strings of memory cells, where the memory cells individually comprise a programmable charge storage transistor, comprises a substrate comprising a first region containing memory cells and a second region not containing memory cells laterally of the first region. The first region comprises vertically-alternating tiers of insulative material and control gate material. The second region comprises vertically-alternating tiers of different composition insulating materials laterally of the first region. A channel pillar comprising semiconductive channel material extends elevationally through multiple of the vertically-alternating tiers within the first region. Tunnel insulator, programmable charge storage material, and control gate blocking insulator are between the channel pillar and the control gate material of individual of the tiers of the control gate material within the first region. Conductive vias extend elevationally through the vertically-alternating tiers in the second region. An elevationally-extending wall is laterally between the first and second regions. The wall comprises the programmable charge storage material and the semiconductive channel material. Other embodiments and aspects, including method, are disclosed.

公开(公告)号：US20140070419A1

公开(公告)日：2014-03-13

申请号：US14080629

申请日：2013-11-14

Applicant: Micron Technology, Inc.

Inventor： Andrey V. Zagrebelny ,  Chet E. Carter ,  Andrew D. Carswell

IPC: H01L29/45 ,  H01L21/283

CPC classification number: H01L29/45 ,  H01L21/283 ,  H01L21/3212 ,  H01L21/76829 ,  H01L21/76831 ,  H01L21/7684 ,  H01L23/53242 ,  H01L23/53295 ,  H01L45/16 ,  H01L2924/0002 ,  H01L2924/00

Abstract: Some embodiments include constructions which have platinum-containing structures. In some embodiments, the constructions may have a planarized surface extending across the platinum-containing structures and across metal oxide. In some embodiments, the constructions may have a planarized surface extending across the platinum-containing structures, across a first material retaining the platinum-containing structures, and across metal oxide liners along sidewalls of the platinum-containing structures and directly between the platinum-containing structures and the first material. Some embodiments include methods of forming platinum-containing structures. In some embodiments, first material is formed across electrically conductive structures, and metal oxide is formed across the first material. Openings are formed to extend through the metal oxide and the first material to the electrically conductive structures. Platinum-containing material is formed within the openings and over the metal oxide. Chemical-mechanical polishing is utilized to form a planarized surface extending across the platinum-containing material and the metal oxide.

Abstract translation: 一些实施方案包括具有含铂结构的构造。 在一些实施方案中，所述结构可以具有穿过含铂结构并穿过金属氧化物的平坦化表面。 在一些实施方案中，所述构造可以具有穿过含铂结构的平坦化表面，穿过保持含铂结构的第一材料，以及沿着含铂结构的侧壁穿过金属氧化物衬垫并且直接在含铂的结构之间 结构和第一种材料。 一些实施方案包括形成含铂结构的方法。 在一些实施例中，跨越导电结构形成第一材料，并且跨越第一材料形成金属氧化物。 开口形成为延伸穿过金属氧化物和第一材料到导电结构。 在开口内和金属氧化物上形成含铂材料。 利用化学机械抛光来形成延伸穿过含铂材料和金属氧化物的平坦化表面。

公开(公告)号：US20230209822A1

公开(公告)日：2023-06-29

申请号：US18117989

申请日：2023-03-06

Applicant: Micron Technology, Inc.

Inventor： Justin B. Dorhout ,  Kunal R. Parekh ,  Martin C. Roberts ,  Mohd Kamran Akhtar ,  Chet E. Carter ,  David Daycock

IPC: H10B41/35 ,  H01L21/308 ,  H01L21/311 ,  H01L21/033 ,  H01L21/768 ,  H01L21/67 ,  H01L21/3215 ,  H10B20/00 ,  H10B41/20 ,  H10B41/23 ,  H10B41/27 ,  H10B43/27

CPC classification number: H10B41/35 ,  H01L21/0337 ,  H01L21/3086 ,  H01L21/3215 ,  H01L21/31144 ,  H01L21/32155 ,  H01L21/67063 ,  H01L21/76802 ,  H10B20/383 ,  H10B41/20 ,  H10B41/23 ,  H10B41/27 ,  H10B43/27 ,  H01L2221/1063 ,  H10B43/35

Abstract: Some embodiments include an integrated assembly with a semiconductor channel material having a boundary region where a more-heavily-doped region interfaces with a less-heavily-doped region. The more-heavily-doped region and the less-heavily-doped region have the same majority carriers. The integrated assembly includes a gating structure adjacent the semiconductor channel material and having a gating region and an interconnecting region of a common and continuous material. The gating region has a length extending along a segment of the more-heavily-doped region, a segment of the less-heavily-doped region, and the boundary region. The interconnecting region extends laterally outward from the gating region on a side opposite the semiconductor channel region, and is narrower than the length of the gating region. Some embodiments include methods of forming integrated assemblies.

公开(公告)号：US20230057852A1

公开(公告)日：2023-02-23

申请号：US17408813

申请日：2021-08-23

Applicant: Micron Technology, Inc.

Inventor： Collin Howder ,  M. Jared Barclay ,  Bhavesh Bhartia ,  Chet E. Carter ,  John D. Hopkins ,  Andrew Li ,  Haoyu Li ,  Alyssa N. Scarbrough ,  Grady S. Waldo

IPC: H01L27/11582 ,  H01L27/11556

Abstract: Integrated circuitry comprising a memory array comprises strings of memory cells comprising laterally-spaced memory blocks individually comprising a first vertical stack comprising alternating insulative tiers and conductive tiers above a conductor tier. Strings of memory cells comprise channel-material strings that extend through the insulative tiers and the conductive tiers. The channel-material strings directly electrically couple with conductor material of the conductor tier. The conductive tiers individually comprise a horizontally-elongated conductive line. A second vertical stack is aside the first vertical stack. The second vertical stack comprises an upper portion and a lower portion. The upper portion comprises vertically-alternating first insulating tiers and second insulating tiers that are of different insulative compositions relative one another. The lower portion comprises a horizontal line above the conductor tier that runs parallel with the laterally-spaced memory blocks in the first vertical stack. Other embodiments, including method, are disclosed.

公开(公告)号：US20220199645A1

公开(公告)日：2022-06-23

申请号：US17692004

申请日：2022-03-10

Applicant: Micron Technology, Inc.

Inventor： Changhan Kim ,  Chet E. Carter ,  Cole Smith ,  Collin Howder ,  Richard J. Hill ,  Jie Li

IPC: H01L27/11582 ,  H01L23/528 ,  H01L27/11568 ,  H01L29/51 ,  H01L29/49 ,  H01L21/311 ,  H01L21/02 ,  H01L27/11521 ,  H01L27/11556 ,  H01L29/788 ,  H01L29/792 ,  H01L29/66 ,  H01L29/10 ,  H01L21/28 ,  H01L27/11529 ,  H01L27/1157

Abstract: Some embodiments include a method of forming an assembly (e.g., a memory array). A first opening is formed through a stack of alternating first and second levels. The first levels contain silicon nitride, and the second levels contain silicon dioxide. Some of the silicon dioxide of the second levels is replaced with memory cell structures. The memory cell structures include charge-storage regions adjacent charge-blocking regions. Tunneling material is formed within the first opening, and channel material is formed adjacent the tunneling material. A second opening is formed through the stack. The second opening extends through remaining portions of the silicon dioxide, and through the silicon nitride. The remaining portions of the silicon dioxide are removed to form cavities. Conductive regions are formed within the cavities. The silicon nitride is removed to form voids between the conductive regions. Some embodiments include memory arrays.