公开(公告)号：US10950416B2

公开(公告)日：2021-03-16

申请号：US16658259

申请日：2019-10-21

Applicant: Mattson Technology, Inc. ,  Beijing E-Town Semiconductor Technology, Co., LTD

Inventor： Qi Zhang ,  Xinliang Lu ,  Hua Chung

IPC: H01J37/32 ,  H01L21/67 ,  H01L21/311

Abstract: Processes for surface treatment of a workpiece are provided. In one example implementation, a method can include conducting a pre-treatment process on a processing chamber to generate a hydrogen radical affecting layer on a surface of the processing chamber prior to performing a hydrogen radical based surface treatment process on a workpiece in the processing chamber. In this manner, a pretreatment process can be conducted to condition a processing chamber to increase uniformity of hydrogen radical exposure to a workpiece.

公开(公告)号：US10692730B1

公开(公告)日：2020-06-23

申请号：US16557346

申请日：2019-08-30

Applicant: Mattson Technology, Inc. ,  Beijing E-Town Semiconductor Technology Co., Ltd.

Inventor： Qi Zhang ,  Xinliang Lu ,  Hua Chung ,  Haichun Yang

IPC: H01L21/311 ,  H01L21/02 ,  H01L21/3213

Abstract: Systems and methods for processing a workpiece are provided. In one example, a method includes exposing the workpiece to a first gas mixture when the workpiece is at a first temperature to conduct a doped silicate glass etch process. The first gas mixture can include hydrofluoric acid (HF) vapor. The doped silicate glass etch process at least partially removes the doped silicate glass layer at a first etch rate that is greater than a second etch rate associated with removal of the at least one second layer. The method can include heating the workpiece to a second temperature. The second temperature is greater than the first temperature. The method can include exposing the workpiece to a second gas mixture when the workpiece is at a second temperature to remove a residue from the workpiece.

公开(公告)号：US11251050B2

公开(公告)日：2022-02-15

申请号：US16904669

申请日：2020-06-18

Applicant: Mattson Technology, Inc. ,  Beijing E-Town Semiconductor Technology Co., Ltd.

Inventor： Qi Zhang ,  Xinliang Lu ,  Hua Chung ,  Haichun Yang

IPC: H01L21/311 ,  H01L21/02 ,  H01L21/3213

Abstract: Systems and methods for processing a workpiece are provided. In one example, a method includes exposing the workpiece to a first gas mixture when the workpiece is at a first temperature to conduct a doped silicate glass etch process. The first gas mixture can include hydrofluoric acid (HF) vapor. The doped silicate glass etch process at least partially removes the doped silicate glass layer at a first etch rate that is greater than a second etch rate associated with removal of the at least one second layer. The method can include heating the workpiece to a second temperature. The second temperature is greater than the first temperature. The method can include exposing the workpiece to a second gas mixture when the workpiece is at a second temperature to remove a residue from the workpiece.

公开(公告)号：US20210366727A1

公开(公告)日：2021-11-25

申请号：US17326945

申请日：2021-05-21

Applicant: Mattson Technology, Inc. ,  Beijing E-Town Semiconductor Technology Co., Ltd.

Inventor： Qi Zhang ,  Haichun Yang ,  Hua Chung ,  Michael X. Yang

IPC: H01L21/3213

Abstract: Methods for processing a workpiece are provided. The workpiece can include a ruthenium layer and a copper layer. In one example implementation, a method for processing a workpiece can include supporting a workpiece on a workpiece support. The method can include performing an ozone etch process on the workpiece to at least a portion of the ruthenium layer. The method can also include performing a hydrogen radical treatment process on a workpiece to remove at least a portion of an oxide layer on the copper layer.

公开(公告)号：US20200185216A1

公开(公告)日：2020-06-11

申请号：US16522193

申请日：2019-07-25

Applicant: Mattson Technology, Inc. ,  Beijing E-Town Semiconductor Technology, Co., LTD.

Inventor： Michael X. Yang ,  Hua Chung ,  Xinliang Lu ,  Haochen Li ,  Ting Xie ,  Qi Zhang

IPC: H01L21/02 ,  H01L21/285 ,  H01J37/32 ,  H01L21/67 ,  H01L21/3213

Abstract: Processes for surface treatment of a workpiece are provided. In one example implementation, organic radicals (e.g., methyl CH3 radicals) can be generated by exciting and/or dissociating hydrogen and/or inert gas (e.g., Ar, He, etc) molecules in a remote plasma source and a subsequent reaction with organic molecule (alkanes and alkenes). The organic radicals (e.g., methyl CH3 radicals) can be exposed to the silicon and/or silicon germanium surfaces. After exposure to the organic radicals, the silicon and/or silicon germanium surfaces can be stable in air for a time period (e.g., days) with reduced surface oxidation such that the silicon and/or silicon germanium surfaces can be effectively protected from oxidation. As such, native surface oxide removal process before subsequent process steps can be eliminated.