公开(公告)号：US20180155183A1

公开(公告)日：2018-06-07

申请号：US15576376

申请日：2016-05-25

Applicant: NATIONAL INSTITUTE FOR MATERIALS SCIENCE

Inventor： Michiko SASAKI ,  Masahiro GOTO ,  Akira KASAHARA ,  Masahiro TOSA

IPC: B81B3/00 ,  C23C14/35 ,  C10M103/06 ,  C23C14/08

CPC classification number: B81B3/0005 ,  B81B3/0078 ,  B81B7/02 ,  B81B2201/035 ,  B81C2201/0119 ,  B81C2201/0181 ,  C10M103/06 ,  C10M2201/0623 ,  C23C14/08 ,  C23C14/086 ,  C23C14/35

Abstract: Low friction coating of the present invention includes a boron-doped zinc oxide thin film, wherein piezoelectric polarization in a vertical direction perpendicular to a film surface and a lateral direction horizontal to the film surface occurs and a magnitude of the piezoelectric polarization in the vertical direction is within 150 pm and a magnitude of the piezoelectric polarization in the lateral direction is within 100 pm at 90% or more of measurement points. This makes it possible to greatly decrease the friction in a nanometer order.

公开(公告)号：US20130113086A1

公开(公告)日：2013-05-09

申请号：US13672527

申请日：2012-11-08

Applicant: Brewer Science Inc.

Inventor： Dongshun Bai ,  Xie Shao ,  Michelle Fowler ,  Tingji Tang

IPC: H01L21/3105 ,  H01L29/02 ,  H01L21/31

CPC classification number: H01L21/31058 ,  B81C1/00611 ,  B81C2201/0119 ,  C08L33/14 ,  C08L33/16 ,  C09D127/18 ,  H01L21/02118 ,  H01L21/0212 ,  H01L21/0271 ,  H01L29/02 ,  Y10S438/958

Abstract: Planarization methods and microelectronic structures formed therefrom are disclosed. The methods and structures use planarization materials comprising fluorinated compounds or acetoacetylated compounds. The materials are self-leveling and achieve planarization over topography without the use of etching, contact planarization, chemical mechanical polishing, or other conventional planarization techniques.

Abstract translation: 公开了由此形成的平面化方法和微电子结构。 方法和结构使用包含氟化化合物或乙酰乙酰化化合物的平面化材料。 材料是自流平的，并且在不使用蚀刻，接触平面化，化学机械抛光或其它常规平面化技术的情况下实现平面化。

公开(公告)号：US07915064B2

公开(公告)日：2011-03-29

申请号：US12538515

申请日：2009-08-10

Applicant: Guy A. Cohen ,  Steven A. Cordes ,  Sherif A. Goma ,  Joanna Rosner ,  Jeannine M. Trewhella

Inventor： Guy A. Cohen ,  Steven A. Cordes ,  Sherif A. Goma ,  Joanna Rosner ,  Jeannine M. Trewhella

IPC: H01L21/00 ,  H01L21/311

CPC classification number: H01L21/31051 ,  B81C1/00611 ,  B81C2201/0119 ,  H01L21/0272 ,  H01L21/0337 ,  H01L21/31053 ,  H01L21/31058 ,  H01L21/3212 ,  H01L21/76838

Abstract: A process for overcoming extreme topographies by first planarizing a cavity in a semiconductor substrate in order to create a planar surface for subsequent lithography processing. As a result of the planarizing process for extreme topographies, subsequent lithography processing is enabled including the deposition of features in close proximity to extreme topographic surfaces (e.g., deep cavities or channels) and, including the deposition of features within a cavity. In a first embodiment, the process for planarizing a cavity in a semiconductor substrate includes the application of dry film resists having high chemical resistance. In a second embodiment, the process for planarizing a cavity includes the filling of cavity using materials such as polymers, spin on glasses, and metallurgy.

Abstract translation: 通过首先平面化半导体衬底中的空腔以便创建用于后续光刻处理的平坦表面来克服极端形貌的过程。 作为极端形貌的平面化处理的结果，可以进行随后的光刻处理，包括紧邻极端地形表面（例如，深空腔或通道）的特征沉积，并且包括在空腔内沉积特征。 在第一实施例中，用于平面化半导体衬底中的腔的方法包括施加具有高耐化学性的干膜抗蚀剂。 在第二实施例中，用于平坦化空腔的方法包括使用诸如聚合物，玻璃旋转和冶金的材料来填充空腔。

公开(公告)号：US06716767B2

公开(公告)日：2004-04-06

申请号：US10282542

申请日：2002-10-28

Applicant: Wu-Sheng Shih ,  James E. Lamb, III ,  Mark Daffron

Inventor： Wu-Sheng Shih ,  James E. Lamb, III ,  Mark Daffron

IPC: H01L2131

CPC classification number: B81C1/0046 ,  B81C1/00611 ,  B81C2201/0119 ,  C08G59/68 ,  C08L63/00 ,  H01L21/02118 ,  H01L21/02282 ,  H01L21/02348 ,  H01L21/31051 ,  H01L21/312

Abstract: The present invention is directed towards planarization materials that produce little or no volatile byproducts during the hardening process when used in contact planarization processes. The materials can be hardened by photo-irradiation or by heat during the planarization process, and they include one or more types of monomers, oligomers, or mixtures thereof, an optional cross-linker, and an optional organic reactive solvents. The solvent, if used, is chemically reacted with the monomers or oligomers and thus becomes part of the polymer matrix during the curing process. These materials can be used for damascene, dual damascene, bi-layer, and multi-layer applications, microelectromechanical system (MEMS), packaging, optical devices, photonics, optoelectronics, microelectronics, and sensor devices fabrication.

Abstract translation: 本发明涉及在用于接触平面化处理时在硬化过程中产生很少或不产生挥发性副产物的平面化材料。 这些材料可以在平坦化过程中通过光照射或加热来硬化，并且它们包括一种或多种类型的单体，低聚物或其混合物，任选的交联剂和任选的有机反应性溶剂。 溶剂（如果使用的话）与单体或低聚物发生化学反应，因此在固化过程中成为聚合物基质的一部分。 这些材料可用于镶嵌，双镶嵌，双层和多层应用，微机电系统（MEMS），封装，光学器件，光子学，光电子学，微电子学和传感器器件制造。

公开(公告)号：US08603846B2

公开(公告)日：2013-12-10

申请号：US13024711

申请日：2011-02-10

Applicant: Guy A. Cohen ,  Steven A. Cordes ,  Sherif A. Goma ,  Joanna Rosner ,  Jeannine M. Trewhella

Inventor： Guy A. Cohen ,  Steven A. Cordes ,  Sherif A. Goma ,  Joanna Rosner ,  Jeannine M. Trewhella

IPC: H01L21/00

CPC classification number: H01L21/31051 ,  B81C1/00611 ,  B81C2201/0119 ,  H01L21/0272 ,  H01L21/0337 ,  H01L21/31053 ,  H01L21/31058 ,  H01L21/3212 ,  H01L21/76838

Abstract: A process for overcoming extreme topographies by first planarizing a cavity in a semiconductor substrate in order to create a planar surface for subsequent lithography processing. As a result of the planarizing process for extreme topographies, subsequent lithography processing is enabled including the deposition of features in close proximity to extreme topographic surfaces (e.g., deep cavities or channels) and, including the deposition of features within a cavity. In a first embodiment, the process for planarizing a cavity in a semiconductor substrate includes the application of dry film resists having high chemical resistance. In a second embodiment, the process for planarizing a cavity includes the filling of cavity using materials such as polymers, spin on glasses, and metallurgy.

Abstract translation: 通过首先平面化半导体衬底中的空腔以便创建用于后续光刻处理的平坦表面来克服极端形貌的过程。 作为极端形貌的平面化处理的结果，可以进行随后的光刻处理，包括紧邻极端地形表面（例如，深空腔或通道）的特征沉积，并且包括在空腔内沉积特征。 在第一实施例中，用于平面化半导体衬底中的腔的方法包括施加具有高耐化学性的干膜抗蚀剂。 在第二实施例中，用于平坦化空腔的方法包括使用诸如聚合物，玻璃旋转和冶金的材料来填充空腔。

公开(公告)号：US06946315B2

公开(公告)日：2005-09-20

申请号：US10961162

申请日：2004-10-12

Applicant: Koichi Ikeda ,  Takashi Kinoshita

Inventor： Koichi Ikeda ,  Takashi Kinoshita

IPC: B81C1/00 ,  B81B3/00 ,  H01L21/00

CPC classification number: B81C1/00611 ,  B81B2201/042 ,  B81B2203/0118 ,  B81C2201/0109 ,  B81C2201/0119 ,  B81C2201/0125

Abstract: The present invention is directed to manufacturing methods of electrostatic type MEMS devices. The manufacturing method of the present invention includes the steps of forming a substrate side electrode on a substrate, forming a fluid film before or after forming a sacrificial layer, further forming a beam having a driving side electrode on a planarized surface of the fluid film, and finally, removing the sacrificial layer. Furthermore, performing the foregoing method planarizes the surface of a driving side electrode, reduces fluctuations in the shape of a beam, and improves the performance and the uniformity of the MEMS device.

Abstract translation: 本发明涉及静电型MEMS器件的制造方法。 本发明的制造方法包括在基板上形成基板侧电极，在形成牺牲层之前或之后形成流体膜的步骤，在流体膜的平坦化表面上进一步形成具有驱动侧电极的光束， 最后，去除牺牲层。 此外，执行上述方法使驱动侧电极的表面平坦化，减小了波束形状的波动，提高了MEMS器件的性能和均匀性。

公开(公告)号：US06838304B2

公开(公告)日：2005-01-04

申请号：US10468757

申请日：2002-12-16

Applicant: Koichi Ikeda ,  Takashi Kinoshita

Inventor： Koichi Ikeda ,  Takashi Kinoshita

IPC: B81C1/00 ,  B81B3/00 ,  H01L21/00

CPC classification number: B81C1/00611 ,  B81B2201/042 ,  B81B2203/0118 ,  B81C2201/0109 ,  B81C2201/0119 ,  B81C2201/0125

Abstract: The present invention is directed to manufacturing methods of electrostatic type MEMS devices. The manufacturing method of the present invention includes the steps of forming a substrate side electrode on a substrate, forming a fluid film before or after forming a sacrificial layer, further forming a beam having a driving side electrode on a planarized surface of the fluid film, and finally, removing the sacrificial layer. Furthermore, performing the foregoing method planarizes the surface of a driving side electrode, reduces fluctuations in the shape of a beam, and improves the performance and the uniformity of the MEMS device.

公开(公告)号：US20010055242A1

公开(公告)日：2001-12-27

申请号：US09867942

申请日：2001-05-30

Inventor： Ajay Deshmukh ,  Dorian Liepmann

IPC: B01F013/00 ,  B01F015/00

CPC classification number: B01F13/0072 ,  B01F5/0403 ,  B01F13/0093 ,  B01F15/0201 ,  B01F15/024 ,  B01F15/0243 ,  B01F2005/0031 ,  B81C1/00611 ,  B81C2201/0119 ,  Y10T137/0329 ,  Y10T137/2185 ,  Y10T137/2196 ,  Y10T137/2224

Abstract: A micro-electromechanical system and method for continuous laminar fluid mixing. An embodiment of the invention described in the specification includes a mixing channel, a first delivery channel that is connected to the mixing channel, and a second delivery channel that is connected to the mixing channel. A first pump mechanism produces pulses in the first delivery channel. A second pump mechanism produces pulses in the second delivery channel. The first pulsed fluid stream and the second pulsed fluid stream merge in the mixing channel to form a mixed fluid. The pulses in the fluids operate to distort the interface between the fluids to facilitate diffusion between the fluids.

Abstract translation: 一种用于连续层流混合的微机电系统和方法。 在说明书中描述的本发明的实施例包括混合通道，连接到混合通道的第一输送通道和连接到混合通道的第二输送通道。 第一泵机构在第一输送通道中产生脉冲。 第二泵机构在第二输送通道中产生脉冲。 第一脉冲流体流和第二脉冲流体流在混合通道中合并形成混合流体。 流体中的脉冲操作以扭曲流体之间的界面，以促进流体之间的扩散。

公开(公告)号：JP2005508089A

公开(公告)日：2005-03-24

申请号：JP2003541044

申请日：2002-10-29

Applicant: ブルーワー サイエンス アイ エヌ シー.

Inventor： ウー−シェン シー ,  マーク ジー． ダフロン ,  ジェームズ イー． ザ・サード ラム

IPC: H05K3/22 ,  B81C1/00 ,  C08G59/68 ,  C08L63/00 ,  H01L21/027 ,  H01L21/3105 ,  H01L21/312

CPC classification number: B81C1/0046 ,  B81C1/00611 ,  B81C2201/0119 ,  C08G59/68 ,  C08L63/00 ,  H01L21/02118 ,  H01L21/02282 ,  H01L21/02348 ,  H01L21/31051 ,  H01L21/312

Abstract: 本発明は、接触平坦化処理に用いる場合、硬化処理中に揮発性副産物をほとんどまたは全く生成しない平坦化物質に関する。 物質は、平坦化処理中に光照射または加熱により硬化可能であり、モノマー、オリゴマー、若しくはこれらの混合物、任意的な架橋剤、および任意的な有機反応性溶媒を含む。 溶媒を用いる場合、モノマーまたはオリゴマーと化学反応し、硬化処理中にポリマーマトリクスの一部になる。 これらの物質は、ダマシン、デュアルダマシン、二重層および多層の塗布、マイクロエレクトメカニカルシステム（ＭＥＭＳ）、実装、光学素子、フォトニクス、オプトエレクトロニクス、マイクロエレクトロニクス、ならびにセンサ素子の製造に用いることができる。

公开(公告)号：JP3770158B2

公开(公告)日：2006-04-26

申请号：JP2001394881

申请日：2001-12-26

Applicant: ソニー株式会社

Inventor： 隆 木下 ,  浩一 池田

IPC: B81C1/00 ,  B81B3/00 ,  H01L21/00

CPC classification number: B81C1/00611 ,  B81B2201/042 ,  B81B2203/0118 ,  B81C2201/0109 ,  B81C2201/0119 ,  B81C2201/0125