公开(公告)号：AU8054301A

公开(公告)日：2002-02-05

申请号：AU8054301

申请日：2001-07-13

Applicant: MICROCOATING TECHNOLOGIES INC

Inventor： HUNT ANDREW TYE ,  DESHPANDE GIRISH ,  HWANG TZYY-JIUAN JAN ,  JIANG YONGDONG ,  FAGUY PETER

IPC: C23C16/02 ,  C23C16/40 ,  C23C16/453 ,  H01M8/12 ,  B32B15/04 ,  B32B9/00

公开(公告)号：AU7163801A

公开(公告)日：2002-01-14

申请号：AU7163801

申请日：2001-06-27

Applicant: MICROCOATING TECHNOLOGIES INC

Inventor： DESHPANDE GIRISH ,  HUNT ANDREW TYE ,  SHANMUGHAM SUBRAMANIAM ,  YURTKURAN ERIC J ,  POLLEY TODD ,  OLJACA MIODRAG ,  HWANG TZYY-JIUAN JAN ,  PODA AIMEE ,  NEUMAN GEORGE ANDREW

IPC: B05D1/08 ,  B05D1/34 ,  B05D3/02 ,  B05D3/08 ,  C03C17/00 ,  C03C17/32 ,  C03C17/42 ,  C09D7/12 ,  C09D183/04 ,  C23C4/12 ,  C23C26/00 ,  B32B27/06 ,  B32B27/08 ,  B32B27/28 ,  B32B27/30 ,  B32B27/32 ,  B32B27/34 ,  B32B27/36 ,  B32B27/38 ,  B32B27/40 ,  C23C4/04 ,  C23C16/00

Abstract: A coherent material is formed on a substrate ( 10 ) by providing a precursor suspension ( 14 ) in which particulates are suspended in a carrier fluid, and directing the precursor suspension ( 14 ) at the substrate ( 10 ) from a first source ( 12 ). Generally contemporaneously with application of the deposited precursor suspension ( 14 ) to the surface, hot gases, e.g. hot gases produced by a flame ( 16 ), are directed at the substrate ( 10 ) from a remote second source ( 18 ) to fuse the particulates into the coherent material.

公开(公告)号：CA2359710A1

公开(公告)日：2000-07-20

申请号：CA2359710

申请日：2000-01-12

Applicant: MICROCOATING TECHNOLOGIES INC

Inventor： HWANG TZYY-JIUAN JAN ,  SHOUP SHARA S ,  LIN WEN-YI ,  DESHPANDE GIRISH ,  COUSINS DONALD H ,  HUNT ANDREW T

IPC: C30B29/22 ,  B01D71/02 ,  H01B20060101 ,  H01B1/00 ,  H01G4/06 ,  H01G4/33 ,  H01L21/20 ,  H01L39/24 ,  H01L49/02 ,  H01M8/02

Abstract: Epitaxial thin films for use as buffer layers for high temperature superconductors, electrolytes in solid oxide fuel cells (SOFC), gas separati on membranes or dielectric material in electronic devices, are disclosed. By using CCVD, CACVD or any other suitable deposition process, epitaxial films having pore-free, ideal grain boundaries, and dense structure can be formed. Several different types of materials are disclosed for use as buffer layers in high temperature superconductors. In addition, the use of epitaxial thin fil ms for electrolytes and electrode formation in SOFCs results in densification f or pore-free and ideal grain boundary/interface microstructure. Gas separation membranes for the production of oxygen and hydrogen are also disclosed. Thes e semipermeable membranes are formed by high-quality, dense, gas-tight, pinhol e free sub-micro scale layers of mixed-conducting oxides on porous ceramic substrates. Epitaxial thin films as dielectric material in capacitors are al so taught herein. Capacitors are utilized according to their capacitance values which are dependent on their physical structure and dielectric permittivity. The epitaxial thin films of the current invention form low-loss dielectric layers with extremely high permittivity. This high permittivity allows for t he formation of capacitors that can have their capacitance adjusted by applying a DC bias between their electrodes.

公开(公告)号：CA2359710C

公开(公告)日：2008-09-02

申请号：CA2359710

申请日：2000-01-12

Applicant: MICROCOATING TECHNOLOGIES INC

Inventor： HWANG TZYY-JIUAN JAN ,  DESHPANDE GIRISH ,  HUNT ANDREW T ,  COUSINS DONALD H ,  LIN WEN-YI ,  SHOUP SHARA S

IPC: C30B29/22 ,  H01L49/02 ,  B01D71/02 ,  C30B29/32 ,  H01B20060101 ,  H01B1/00 ,  H01G4/06 ,  H01G4/33 ,  H01L21/20 ,  H01L39/24 ,  H01M8/02 ,  H01M8/10

Abstract: Epitaxial thin films for use as buffer layers for high temperature superconductors, electrolytes in solid oxide fuel cells (SOFC), gas separation membranes or dielectric material in electronic devices, are disclosed. By using CCVD, CACVD or any other suitable deposition process, epitaxial films having pore-free, ideal grain boundaries, and dense structure can be formed. Several different types of materials are disclosed for use as buffer layers in high temperature superconductors. In addition, the use of epitaxial thin films for electrolytes and electrode formation in SOFCs results in densification for pore-free and ideal grain boundary/interface microstructure. Gas separation membranes for the production of oxygen and hydrogen are also disclosed. These semipermeable membranes are formed by high-quality, dense, gas-tight, pinhole free sub-micro scale layers of mixed-conducting oxides on porous ceramic substrates. Epitaxial thin films as dielectric material in capacitors are also taught herein. Capacitors are utilized according to their capacitance values which are dependent on their physical structure and dielectric permittivity. The epitaxial thin films of the current invention form low-loss dielectric layers with extremely high permittivity. This high permittivity allows for the formation of capacitors that can have their capacitance adjusted by applying a DC bias between their electrodes.

公开(公告)号：AU7024501A

公开(公告)日：2002-01-14

申请号：AU7024501

申请日：2001-06-27

Applicant: MICROCOATING TECHNOLOGIES INC

Inventor： SHANMUGHAM SUBRAMANIAM ,  HUNT ANDREW TYE ,  DESHPANDE GIRISH ,  HWANG TZYY-JIUAN JAN ,  MOORE ERIKA ,  JIANG YONGDONG

IPC: B05D1/08 ,  B05D1/34 ,  B05D3/02 ,  B05D3/08 ,  C03C17/00 ,  C03C17/32 ,  C03C17/42 ,  C09D7/12 ,  C09D183/04 ,  C23C4/12 ,  C23C26/00 ,  B05D1/24

Abstract: A coherent material is formed on a substrate ( 10 ) by providing a precursor suspension ( 14 ) in which particulates are suspended in a carrier fluid, and directing the precursor suspension ( 14 ) at the substrate ( 10 ) from a first source ( 12 ). Generally contemporaneously with application of the deposited precursor suspension ( 14 ) to the surface, hot gases, e.g. hot gases produced by a flame ( 16 ), are directed at the substrate ( 10 ) from a remote second source ( 18 ) to fuse the particulates into the coherent material.

公开(公告)号：AU774828B2

公开(公告)日：2004-07-08

申请号：AU4165600

申请日：2000-01-12

Applicant: MICROCOATING TECHNOLOGIES INC

Inventor： HUNT ANDREW T ,  DESHPANDE GIRISH ,  COUSINS DONALD ,  HWANG TZYY-JIUAN JAN ,  LIN WEN-YI ,  SHOUP SHARA S

IPC: C30B29/22 ,  B01D71/02 ,  H01B20060101 ,  H01B1/00 ,  H01G4/06 ,  H01G4/33 ,  H01L21/20 ,  H01L39/24 ,  H01L49/02 ,  H01M8/02

公开(公告)号：BR0112505A

公开(公告)日：2003-08-26

申请号：BR0112505

申请日：2001-07-13

Applicant: MICROCOATING TECHNOLOGIES INC

Inventor： HUNT ANDREW TYE ,  DESHPANDE GIRISH ,  HWANG TZYY-JIUAN JAN ,  JIANG YONGDONG ,  FAGUY PETER

IPC: C23C16/02 ,  C23C16/40 ,  C23C16/453 ,  H01M8/12 ,  B32B15/04 ,  B32B9/00

公开(公告)号：WO0202320B1

公开(公告)日：2002-03-21

申请号：PCT/US0120757

申请日：2001-06-27

Applicant: MICROCOATING TECHNOLOGIES INC ,  DESHPANDE GIRISH ,  HUNT ANDREW TYE ,  SHANMUGHAM SUBRAMANIAM ,  YURTKURAN ERIC J ,  POLLEY TODD ,  OLJACA MIODRAG ,  HWANG TZYY JIUAN JAN ,  PODA AIMEE ,  NEUMAN GEORGE ANDREW

Inventor： DESHPANDE GIRISH ,  HUNT ANDREW TYE ,  SHANMUGHAM SUBRAMANIAM ,  YURTKURAN ERIC J ,  POLLEY TODD ,  OLJACA MIODRAG ,  HWANG TZYY-JIUAN JAN ,  PODA AIMEE ,  NEUMAN GEORGE ANDREW

IPC: B05D1/08 ,  B05D1/34 ,  B05D3/02 ,  B05D3/08 ,  C03C17/00 ,  C03C17/32 ,  C03C17/42 ,  C09D7/12 ,  C09D183/04 ,  C23C4/12 ,  C23C26/00 ,  B32B27/06 ,  B32B27/08 ,  B32B27/28 ,  B32B27/30 ,  B32B27/32 ,  B32B27/34 ,  B32B27/36 ,  B32B27/38 ,  B32B27/40 ,  C23C4/04 ,  C23C16/00

CPC classification number: C03C17/001 ,  B05D1/08 ,  B05D1/34 ,  B05D3/0254 ,  B05D3/08 ,  B05D2518/10 ,  C03C17/007 ,  C03C17/009 ,  C03C17/32 ,  C03C17/42 ,  C03C2217/425 ,  C03C2217/445 ,  C03C2217/475 ,  C08K3/22 ,  C08K3/346 ,  C09D7/61 ,  C09D183/04 ,  C23C4/12 ,  C23C4/123 ,  C23C26/00 ,  Y10T428/12583 ,  Y10T428/31522

Abstract: Coatings, particularly thin films, of polymeric material are produced in accordance with the invention by applying a finely divided aerosol (N) of polymer solution to a substrate (30) and substantially simultaneously applying an energy source (38) to the applied solution to apply the solution. In cases where the polymer is cross-linking, the energy source assists in cross-linking of the polymer. The preferred energy source is a flame (38) that may optionally or desirably deposit material along with the polymer spray. One particular aspect of the invention is directed to production of polyimide films. In accordance with another aspect of the invention, the co-deposition process is used to provide thin polysiloxane coatings on glass and other substrates.

Abstract translation: 根据本发明，通过将细分散的气溶胶（N）聚合物溶液施加到基底（30）并基本上同时向所施加的溶液施加能量源（38）来施加聚合物材料的涂层，特别是薄膜， 解决方案。 在聚合物交联的情况下，能量源有助于聚合物的交联。 优选的能源是可以任选地或期望地与聚合物喷雾一起沉积物质的火焰（38）。 本发明的一个特定方面涉及聚酰亚胺膜的制备。 根据本发明的另一方面，共沉积方法用于在玻璃和其它基底上提供薄的聚硅氧烷涂层。

公开(公告)号：WO0202246A9

公开(公告)日：2003-03-06

申请号：PCT/US0120667

申请日：2001-06-27

Applicant: MICROCOATING TECHNOLOGIES INC ,  SHANMUGHAM SUBRAMANIAM ,  HUNT ANDREW TYE ,  DESHPANDE GIRISH ,  HWANG TZYY-JIUAN JAN ,  MOORE ERIKA ,  JIANG YONGDONG

Inventor： SHANMUGHAM SUBRAMANIAM ,  HUNT ANDREW TYE ,  DESHPANDE GIRISH ,  HWANG TZYY-JIUAN JAN ,  MOORE ERIKA ,  JIANG YONGDONG

IPC: B05D1/08 ,  B05D1/34 ,  B05D3/02 ,  B05D3/08 ,  C03C17/00 ,  C03C17/32 ,  C03C17/42 ,  C09D7/12 ,  C09D183/04 ,  C23C4/12 ,  C23C26/00 ,  B05D1/24

CPC classification number: C03C17/001 ,  B05D1/08 ,  B05D1/34 ,  B05D3/0254 ,  B05D3/08 ,  B05D2518/10 ,  C03C17/007 ,  C03C17/009 ,  C03C17/32 ,  C03C17/42 ,  C03C2217/425 ,  C03C2217/445 ,  C03C2217/475 ,  C08K3/22 ,  C08K3/346 ,  C09D7/61 ,  C09D183/04 ,  C23C4/12 ,  C23C4/123 ,  C23C26/00 ,  Y10T428/12583 ,  Y10T428/31522

Abstract: A coherent material is formed on a substrate (10) by providing a precursor suspension (14) in which particulates are suspended in a carrier fluid, and directing the precursor suspension (14) at the substrate (10) from a first source (12). Generally contemporaneously with application of the deposited precursor suspension (14) to the surface, hot gases, e.g. hot gases produced by a flame (16), are directed at the substrate (10) from a remote second source (18) to fuse the particulates into the coherent material.

Abstract translation: 通过提供一种前体悬浮液（14），其中颗粒悬浮在载体流体中，并且将前体悬浮液（14）从第一源（12）引导到基底（10）处，在基底（10）上形成相干材料， 。 通常同时将沉积的前体悬浮液（14）施加到表面，热气体，例如， 由火焰（16）产生的热气体从远程第二源（18）引导到衬底（10），以将微粒熔合成相干材料。

公开(公告)号：WO0042621A2

公开(公告)日：2000-07-20

申请号：PCT/US0000824

申请日：2000-01-12

Applicant: MICROCOATING TECHNOLOGIES INC ,  HUNT ANDREW T ,  DESHPANDE GIRISH ,  COUSINS DONALD ,  HWANG TZYY JIUAN JAN ,  LIN WEN YI ,  SHOUP SHARA S

Inventor： HUNT ANDREW T ,  DESHPANDE GIRISH ,  COUSINS DONALD ,  HWANG TZYY-JIUAN JAN ,  LIN WEN-YI ,  SHOUP SHARA S

IPC: C30B29/22 ,  B01D71/02 ,  H01B20060101 ,  H01B1/00 ,  H01G4/06 ,  H01G4/33 ,  H01L21/20 ,  H01L39/24 ,  H01L49/02 ,  H01M8/02 ,  H01B

CPC classification number: H01L39/2461

Abstract: Epitaxial thin films for use as buffer layers for high temperature superconductors, electrolytes in solid oxide fuel cells (SOFC), gas separation membranes or dielectric material in electronic devices, are disclosed. By using CCVD, CACVD or any other suitable deposition process, epitaxial films having pore-free, ideal grain boundaries, and dense structure can be formed. Several different types of materials are disclosed for use as buffer layers in high temperature superconductors. In addition, the use of epitaxial thin films for electrolytes and electrode formation in SOFCs results in densification for pore-free and ideal grain boundary/interface microstructure. Gas separation membranes for the production of oxygen and hydrogen are also disclosed. These semipermeable membranes are formed by high-quality, dense, gas-tight, pinhole free sub-micro scale layers of mixed-conducting oxides on porous ceramic substrates. Epitaxial thin films as dielectric material in capacitors are also taught herein. Capacitors are utilized according to their capacitance values which are dependent on their physical structure and dielectric permittivity. The epitaxial thin films of the current invention form low-loss dielectric layers with extremely high permittivity. This high permittivity allows for the formation of capacitors that can have their capacitance adjusted by applying a DC bias between their electrodes.

Abstract translation: 公开了用作高温超导体的缓冲层的外延薄膜，固体氧化物燃料电池（SOFC）中的电解质，电子装置中的气体分离膜或介电材料。 通过使用CCVD，CACVD或任何其它合适的沉积工艺，可以形成具有无孔，理想晶界和致密结构的外延膜。 公开了几种不同类型的材料用作高温超导体中的缓冲层。 此外，在SOFC中使用电解质外延薄膜和电极形成导致无孔和理想的晶界/界面微观结构的致密化。 还公开了用于生产氧气和氢气的气体分离膜。 这些半透膜由多孔陶瓷基板上的高质量，致密，气密，无针孔的微小尺度的混合导电氧化物层形成。 本文还介绍了作为电容器中的介电材料的外延薄膜。 根据电容值的物理结构和介电常数，使用电容器。 本发明的外延薄膜形成具有极高介电常数的低损耗介电层。 这种高介电常数允许形成可以通过在它们的电极之间施加直流偏压来调整其电容的电容器。