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16 条记录 (耗时 0.018 秒)

    Nanocomposite material for the production of index of refraction gradient films
    1.
    发明授权
    Nanocomposite material for the production of index of refraction gradient films 有权
    用于生产折射率梯度膜的纳米复合材料

    公开(公告)号:US07473721B2

    公开(公告)日:2009-01-06

    申请号:US10500194

    申请日:2003-01-03

    申请人: Takamasa Harada Fumio Kita Andreas Zimmermann Ulrike Dellwo Martin Mennig Peter W. Oliveira Helmut Schmidt Heike Schneider

    发明人: Takamasa Harada Fumio Kita Andreas Zimmermann Ulrike Dellwo Martin Mennig Peter W. Oliveira Helmut Schmidt Heike Schneider

    IPC分类号: C08K9/12

    CPC分类号: C08L83/06 C08K3/013 C09D183/06 G02B1/04 G03H2260/12 C08L2666/04

    摘要: The invention relates to solid or gel-type nanocomposite material which can be polymerised, containing a) 4.9 95.9 wt. % of a soluble polymer; b) 4-95 wt. % of a partially or totally condensed silane selected from the group of epoxyalkoxysilanes, alkoxysilanes and alkylalkoxysilanes, the silane having an inorganic condensation degree of between 33-100% and an organic conversion degree of between 0-95%; c) 0-60 wt. % of an acrylate; d) 0.1-50 wt. % of surface modified nanometric particles selected from the group of oxides, sulphides, selenides, tellurides, halogenides, carbides, arsenides, antimonides, nitrides, phosphides, carbonates, carboxylates, phosphates, sulphates, silicates, titanates, zirconates, aluminates, stannates, plumbates and a mixed oxides; e) 0-50 wt.-% of a plasticizer; f) 0-5 wt. % of a thermal or photochemical cross-linking initiator, sensitizer, auxiliary wetting agent, adhesive agent, antioxidant, stabiliser, coloring agent, photochrome material and thermochrome material in relation to the total weight (dry weight) of the nanocomposite material.

    摘要翻译: 本发明涉及可以聚合的固体或凝胶型纳米复合材料,其包含a)4.9 95.9wt。 %的可溶性聚合物; b)4-95wt。 选自环氧烷氧基硅烷,烷氧基硅烷和烷基烷氧基硅烷的部分或全部冷凝的硅烷的%,硅烷的无机缩合度在33-100%之间,有机转化度在0-95%之间; c)0-60wt。 %的丙烯酸酯; d)0.1-50wt。 选自氧化物,硫化物,硒化物,碲化物,卤化物,碳化物,砷化物,锑化物,氮化物,磷化物,碳酸盐,羧酸盐,磷酸盐,硫酸盐,硅酸盐,钛酸盐,锆酸盐,铝酸盐,锡酸盐,铅酸铅的表面改性纳米颗粒的% 和混合氧化物; e)0-50重量%的增塑剂; f)0-5wt。 相对于纳米复合材料的总重量(干重),热或光化学交联引发剂,敏化剂,辅助润湿剂,粘合剂,抗氧化剂,稳定剂,着色剂,感光材料和热变色材料的%。

    Method for producing multilayered optical systems
    2.
    发明授权
    Method for producing multilayered optical systems 有权
    多层光学系统的制造方法

    公开(公告)号:US06455103B1

    公开(公告)日:2002-09-24

    申请号:US09700100

    申请日:2000-11-08

    申请人: Martin Mennig Peter W. Oliveira Helmut Schmidt

    发明人: Martin Mennig Peter W. Oliveira Helmut Schmidt

    IPC分类号: B05D506

    CPC分类号: B82Y30/00 C03C17/009 C03C17/3417 G02B1/111

    摘要: Inorganic multilayered optical systems are produced by applying to a glass substrate a flowable composition containing nanoscale solid inorganic particles containing polymerizable or polycondensable organic surface groups, polymerizing and/or polycondensing those surface groups to form an organically crosslinked layer, applying to the organically crosslinked layer and polymerizing/polycondensing a flowable composition producing a different refractive index from the first layer (optionally repeated one or more times), and one-step thermal densifying and removing the organic components. The systems so produced are suitable as interference filters and antireflection systems.

    摘要翻译: 无机多层光学系统通过向玻璃基板施加含有含有可聚合或可缩聚有机表面基团的纳米级固体无机颗粒的可流动组合物,将这些表面基团聚合和/或缩聚以形成有机交联层,施加到有机交联层和 聚合/缩聚从第一层产生不同折射率的可流动组合物(任选重复一次或多次),以及一步热致密化和除去有机组分。 如此生产的系统适合作为干涉滤光片和抗反射系统。

    Optical components with a graded-index structure, and method of manufacturing such components
    3.
    发明授权
    Optical components with a graded-index structure, and method of manufacturing such components 有权
    具有渐变折射率结构的光学部件及其制造方法

    公开(公告)号:US06236493B1

    公开(公告)日:2001-05-22

    申请号:US09155639

    申请日:1998-10-01

    申请人: Helmut Schmidt Herbert Krug Peter W. Oliveira Stefan Sepeur

    发明人: Helmut Schmidt Herbert Krug Peter W. Oliveira Stefan Sepeur

    IPC分类号: G02B2600

    CPC分类号: G02B1/04 G02B3/0087 Y10S977/773 Y10S977/778 Y10S977/779 Y10S977/834

    摘要: Optical components have a material-distribution gradient due to nanometer-size particles embedded in a solid matrix. The components are manufactured by forming a dispersion of nanometer-size particles in a liquid, curable matrix material, causing the particles to migrate in the matrix material on the basis of a potential difference to form a distribution gradient, and subsequently curing the matrix material, retaining the distribution gradient. The method is suitable for use in the manufacture of optical lenses with a refractive index gradient.

    摘要翻译: 光学元件由于嵌入固体基质中的纳米尺寸颗粒而具有材料分布梯度。 通过在液体可固化基质材料中形成纳米尺寸颗粒的分散体来制造组分,使得颗粒基于电位差在基体材料中迁移以形成分布梯度,随后使基体材料固化, 保留分布梯度。 该方法适用于制造具有折射率梯度的光学透镜。

    PARTICLES OR COATING FOR SPLITTING WATER
    4.
    发明申请
    PARTICLES OR COATING FOR SPLITTING WATER 审中-公开
    分散水的颗粒或涂层

    公开(公告)号:US20100184592A1

    公开(公告)日:2010-07-22

    申请号:US12452093

    申请日:2008-06-13

    申请人: Stefan Sepeur Gerald Frenzer Peter W. Oliveira

    发明人: Stefan Sepeur Gerald Frenzer Peter W. Oliveira

    IPC分类号: B01J27/057 C23C16/44 B05D1/36 C25D5/00 C25D13/00 B05D7/00

    CPC分类号: C01B3/042 B01J33/00 B01J35/0013 B01J35/004 B01J37/0221 B01J37/34 C01B13/0207 Y02E60/364

    摘要: The aim of the invention is to provide particles or coatings for splitting water, which are largely protected from corrosive damage. To this end, the particles or the coating consist(s) of a nucleus or a sub-layer and a shell or top layer, the nucleus or the sub-layer forming a reactive unit and consisting of a material which, on input of energy from sunlight, releases electrons capable of splitting water into hydrogen and oxygen, and the shell or top layer forming a protective unit capable of keeping the cleavage products away from the surface of the reactive unit and simultaneously having conductive fractions. Surprisingly, it has been found that corrosive damage to the reactive particles is (largely) prevented by the targeted separation of the reaction particles and the cleavage products over the kinetic range of the released electrons.

    摘要翻译: 本发明的目的是提供用于分离水的颗粒或涂层,其大大保护不受腐蚀损坏。 为此,颗粒或涂层由核或子层和壳或顶层组成,核或子层形成反应性单元,并由在能量输入上的材料组成 从阳光中释放能够将水分解成氢和氧的电子,并且壳或顶层形成能够使裂解产物远离反应性单元的表面并同时具有导电级分的保护单元。 令人惊讶的是,已经发现,通过在释放的电子的动力学范围上的反应颗粒和裂解产物的目标分离(主要地)来防止对反应性颗粒的腐蚀性损伤。

    METHOD AND DEVICE FOR PRODUCING STRUCTURED OPTICAL MATERIALS
    5.
    发明申请
    METHOD AND DEVICE FOR PRODUCING STRUCTURED OPTICAL MATERIALS 有权
    用于生产结构光学材料的方法和装置

    公开(公告)号:US20100155974A1

    公开(公告)日:2010-06-24

    申请号:US12452842

    申请日:2008-06-09

    申请人: Peter W. Oliveira Peter Rogin Michael Gros Martin Amlung Michael Veith

    发明人: Peter W. Oliveira Peter Rogin Michael Gros Martin Amlung Michael Veith

    IPC分类号: B29D11/00 B28B1/14 B29C35/08

    CPC分类号: G03F7/2035

    摘要: The invention relates to a method for producing structured optical materials. It also relates to a device for producing structured optical materials, and to use of the method.In order to create a novel, continuous method for the production of structured optical materials, which is more economical than the known production method, it is proposed within the scope of the invention that optical material be applied to a carrier, a carrier or protective film be laminated onto the optical material, the resulting laminate be exposed to light and thereby structured, and subsequently a delamination of at least one of the films be performed.

    摘要翻译: 本发明涉及一种生产结构光学材料的方法。 本发明还涉及一种用于制造结构化光学材料的装置以及该方法的使用。 为了创造出一种新颖的连续生产结构光学材料的方法,其比现有的生产方法更经济,在本发明的范围内提出将光学材料应用于载体,载体或保护膜 层压到光学材料上,将所得到的层压板暴露于光并由此构成,随后进行至少一个膜的分层。

    Nanoimprint resist
    6.
    发明授权
    Nanoimprint resist 有权
    纳米抗蚀剂

    公开(公告)号:US07431858B2

    公开(公告)日:2008-10-07

    申请号:US10511402

    申请日:2003-04-09

    申请人: Walter Spiess Fumio Kita Michael Meier Andreas Gier Martin Mennig Peter W Oliveira Helmut Schmidt

    发明人: Walter Spiess Fumio Kita Michael Meier Andreas Gier Martin Mennig Peter W Oliveira Helmut Schmidt

    IPC分类号: B44C1/22 C03C15/00 C03C25/68 C23F1/00

    CPC分类号: G03F7/0757 B82Y10/00 B82Y40/00 G03F7/0002 G03F7/0017 G03F7/0047

    摘要: The invention relates to a method for microstructuring electronic components, which yields high resolutions (≦200 nm) at a good aspect ratio while being significantly less expensive than photolithographic methods. The inventive method comprises the following steps: i) a planar unhardened sol film of a nanocomposite composition according to claim 1 is produced; ii) a target substrate consisting of a bottom coat (b) and a support (c) is produced; iii) sol film material obtained in step i) is applied to the bottom coat (b) obtained in step ii) by means of a microstructured transfer embossing stamp; iv) the applied sol film material is hardened; v) the transfer embossing stamp is separated, whereby an embossed microstructure is obtained as a top coat (a). The method for producing a microstructured semiconductor material comprises the following additional steps: vi) the remaining layer of the nanocomposite sol film is plasma etched, preferably with CHF3/O2 plasma; vii) the bottom coat is plasma etched, preferably with O2 plasma; viii) the semiconductor material is etched or the semiconductor material is doped in the etched areas.

    摘要翻译: 本发明涉及一种用于微结构化电子部件的方法,其以良好的纵横比产生高分辨率(<= 200nm),同时显着地低于光刻方法。 本发明的方法包括以下步骤:i)制备根据权利要求1的纳米复合组合物的平面未硬化溶胶膜; ii)制备由底涂层(b)和载体(c)组成的靶基材; iii)在步骤i)中获得的溶胶膜材料通过微结构转印压花印刷施加到在步骤ii)中获得的底涂层(b) iv)涂覆的溶胶膜材料硬化; v)分离转印压花印模,由此获得作为顶涂层(a)的压花微结构。 制造微结构化半导体材料的方法包括以下附加步骤:vi)纳米复合溶胶膜的剩余层被等离子体蚀刻,优选地具有CHF 3 O 2 / O 2等离子体 ; vii)底涂层被等离子体蚀刻,优选为O 2等离子体; viii)蚀刻半导体材料或者在蚀刻区域中掺杂半导体材料。