公开(公告)号：US20140013980A1

公开(公告)日：2014-01-16

申请号：US13548155

申请日：2012-07-12

Applicant: Janos Veres ,  David K. Biegelsen

Inventor： Janos Veres ,  David K. Biegelsen

IPC: B41N3/00

CPC classification number: G03G15/10 ,  G03G13/28 ,  G03G15/226

Abstract: A system comprises an electro-wetting subsystem, a transfer subsystem, an imaging member, and an inking subsystem. The electro-wetting subsystem comprises a photo-responsive photoreceptor, a charging mechanism, an image definition material reservoir, a charge erase mechanism, and an exposure subsystem, such as a light source and rotating polygon forming a raster output scanner (ROS) disposed for exposure of the photoreceptor through the image definition material reservoir. The imaging member comprises a reimageable surface having certain properties, such as having a low surface energy to promote ink release onto a substrate. In operation, the photoreceptor is charged areawise. An exposure pattern is formed by the exposure subsystem on the surface of the charged photoreceptor, which is developed with image definition material. The image definition material pattern is transferred to the reimageable surface. The pattern is developed with ink. The inked image may be transferred to a substrate.

Abstract translation: 系统包括电润湿子系统，传输子系统，成像构件和着墨子系统。 电润湿子系统包括光响应感光体，充电机构，图像定义材料储存器，电荷擦除机构和曝光子系统，例如形成光栅输出扫描器（ROS）的光源和旋转多边形，其设置用于 通过图像定义材料储存器曝光感光体。 成像构件包括具有某些特性的可再成像表面，例如具有低表面能以促进油墨释放到基底上。 在操作中，感光体面积充电。 通过曝光子系统在带图像定义材料显影的带电感光体的表面上形成曝光图案。 图像定义材料图案被转移到可再成像的表面。 该图案是用墨水开发的。 着墨的图像可以被转印到基底上。

公开(公告)号：US08562795B2

公开(公告)日：2013-10-22

申请号：US12249947

申请日：2008-10-12

Applicant: Yong Chen

Inventor： Yong Chen

IPC: C25D5/02 ,  C25D17/12 ,  B23H3/04 ,  B23H3/06

CPC classification number: B82Y10/00 ,  B82Y30/00 ,  B82Y40/00 ,  G03F7/0002 ,  G03G13/28 ,  G03G13/283 ,  G03G13/286

Abstract: A nanoscale lithographic method in which a reusable conductive mask, having a pattern of conductive surfaces and insulating surfaces, is positioned upon a substrate whose surface contains an electrically responsive resist layer over a buried conductive layer. When an electric field is applied between the conductive mask and buried conductive layer, the resist layer is altered in portions adjacent the conductive areas of the mask. Selective processing is performed on the surface of the substrate, after mask removal, to remove portions of the resist layer according to the pattern transferred from the mask. The substrate may be a target substrate, or the substrate may be utilized for a lithographic masking step of another substrate. In one aspect of the invention the electrodes to which the charge is applied are divided, such as into a plurality of rows and columns wherein any desired pattern may be created without the need to fabricate specific masks.

Abstract translation: 一种纳米级光刻方法，其中具有导电表面和绝缘表面图案的可重复使用的导电掩模位于其表面在掩埋导电层上包含电响应抗蚀剂层的基底上。 当在导电掩模和掩埋导电层之间施加电场时，抗蚀剂层在与掩模的导电区域相邻的部分中改变。 在掩模移除之后，在基板的表面上进行选择性处理，以根据从掩模转印的图案去除部分抗蚀剂层。 衬底可以是目标衬底，或者衬底可以用于另一衬底的光刻掩模步骤。 在本发明的一个方面，施加电荷的电极被划分成多个行和列，其中可以创建任何期望的图案，而不需要制造特定的掩模。

公开(公告)号：US20110311911A1

公开(公告)日：2011-12-22

申请号：US13203372

申请日：2009-12-15

Applicant: Keizo Kimura ,  Takuma Amemiya ,  Katsumi Kobayashi

Inventor： Keizo Kimura ,  Takuma Amemiya ,  Katsumi Kobayashi

IPC: C09B47/04 ,  G03F7/20 ,  G01J3/00 ,  C09D11/10 ,  G03G9/00 ,  C09B47/30 ,  C09D11/02

CPC classification number: C07D487/22 ,  B41C1/1041 ,  B41M3/14 ,  C09B47/00 ,  C09B47/0675 ,  C09B47/30 ,  C09B47/305 ,  C09B57/008 ,  C09D11/037 ,  C09D11/101 ,  C09D11/322 ,  G03G9/0918 ,  G03G9/122 ,  G03G13/28 ,  G03G13/286

Abstract: Disclosed is a method of proving the authenticity of goods or a support comprising using a compound represented by Formula (I). wherein, in Formula (I), each of R11 to R46 independently represents a hydrogen atom or a substituent group, wherein when a benzene ring is substituted with any of R11 to R46, any groups adjacent to each other among R11 to R46 may be bonded each other to form a ring; M represents a hydrogen atom, a metal ion, or a group containing a metal ion; and n represents 1 or 2. The infrared absorption efficiency is high and the deterioration in infrared absorption over time is ameliorated. The infrared absorption efficiency is high and the deterioration in infrared absorption over time is ameliorated.

Abstract translation: 公开了一种证明货物的真实性的方法或包含使用由式（I）表示的化合物的载体。 其中，在式（I）中，R 11〜R 46各自独立地表示氢原子或取代基，其中，当苯环被R 11〜R 46中的任一个取代时，R 11〜R 46中相邻的基团可以键合 彼此形成一个戒指; M表示氢原子，金属离子或含有金属离子的基团; 并且n表示1或2.红外吸收效率高，随着时间的推移，红外吸收的劣化得到改善。 红外吸收效率高，随着时间的推移，红外吸收的劣化得到改善。

公开(公告)号：US20070107614A1

公开(公告)日：2007-05-17

申请号：US11444182

申请日：2006-05-31

Applicant: Bo Lee ,  Gee Chae

Inventor： Bo Lee ,  Gee Chae

IPC: B41G7/00

CPC classification number: G03F7/0002 ,  B82Y10/00 ,  B82Y20/00 ,  B82Y30/00 ,  B82Y40/00 ,  G02F2001/136295 ,  G02F2202/36 ,  G03G13/26 ,  G03G13/28 ,  G03G13/283 ,  G03G13/286 ,  H01L27/124 ,  H01L27/1292

Abstract: Provided are a method of fabricating a stamp, a thin film transistor and a liquid crystal display device using the same. The stamp has an improved contact property with respect to a substrate. A charged zone is formed on the substrate using the stamp, and nano material charged with opposite charges to those of the charged zone is coated or plated to form a self-assembled monolayer (SAM). Therefore, the thin film transistor and the liquid crystal display device can have precise nano patterns, thereby improving the performance of the device.

Abstract translation: 提供一种制造印模，薄膜晶体管和使用该印模的液晶显示装置的方法。 印模相对于基材具有改善的接触性。 使用印模在基板上形成带电区域，并且对与带电区域的电荷相反的电荷填充纳米材料，以形成自组装单层（SAM）。 因此，薄膜晶体管和液晶显示装置可以具有精确的纳米图案，从而提高装置的性能。

公开(公告)号：US07217502B2

公开(公告)日：2007-05-15

申请号：US11444740

申请日：2006-06-01

Applicant: Kevin B. Ray ,  Jianbing Huang ,  Heidi M. Munnelly

Inventor： Kevin B. Ray ,  Jianbing Huang ,  Heidi M. Munnelly

IPC: G03C5/00

CPC classification number: B41C1/1008 ,  B41C2210/02 ,  B41C2210/04 ,  B41C2210/08 ,  B41C2210/20 ,  B41C2210/22 ,  B41C2210/24 ,  G03F1/68 ,  G03F7/0047 ,  G03G13/28 ,  G03G13/283 ,  G03G13/286

Abstract: The present invention provides methods of imagewise exposing a thermally sensitive composition formed from a nanopaste comprising inorganic nanoparticles, a carrier, and preferably certain polymeric binders. The composition has been applied to a substrate and treated to improve adhesion. Exposure affects the solubility of exposed portions of the applied and treated layer relative to unexposed portions of the applied layer. The imaged layer is then developed on-press with a fountain solution, lithographic ink, or both, to remove the exposed portions or unexposed portions of the layer to form an image in a printing plate.

Abstract translation: 本发明提供了成像曝光由包含无机纳米颗粒，载体和优选某些聚合物粘合剂的纳米糊料形成的热敏组合物的方法。 将该组合物施用于基材并进行处理以提高粘合性。 暴露影响施加和处理的层相对于施加层的未曝光部分的暴露部分的溶解度。 然后，利用润版液，平版印刷油墨或两者在印刷机上显影成像层，以去除该层的曝光部分或未曝光部分，以在印版中形成图像。

公开(公告)号：US20060216648A1

公开(公告)日：2006-09-28

申请号：US11444740

申请日：2006-06-01

Applicant: Kevin Ray ,  Jianbing Huang ,  Heidi Munnelly

Inventor： Kevin Ray ,  Jianbing Huang ,  Heidi Munnelly

IPC: G03F1/00 ,  G03F7/00 ,  G03C1/00 ,  G03C5/00 ,  G03F7/26

CPC classification number: B41C1/1008 ,  B41C2210/02 ,  B41C2210/04 ,  B41C2210/08 ,  B41C2210/20 ,  B41C2210/22 ,  B41C2210/24 ,  G03F1/68 ,  G03F7/0047 ,  G03G13/28 ,  G03G13/283 ,  G03G13/286

Abstract: The present invention provides methods of imagewise exposing a thermally sensitive composition formed from a nanopaste comprising inorganic nanoparticles, a carrier, and preferably certain polymeric binders. The composition has been applied to a substrate and treated to improve adhesion. Exposure affects the solubility of exposed portions of the applied and treated layer relative to unexposed portions of the applied layer. The imaged layer is then developed on-press with a fountain solution, lithographic ink, or both, to remove the exposed portions or unexposed portions of the layer to form an image in a printing plate.

Abstract translation: 本发明提供了成像曝光由包含无机纳米颗粒，载体和优选某些聚合物粘合剂的纳米糊料形成的热敏组合物的方法。 将该组合物施用于基材并进行处理以提高粘合性。 暴露影响施加和处理的层相对于施加层的未曝光部分的暴露部分的溶解度。 然后，利用润版液，平版印刷油墨或两者在印刷机上显影成像层，以去除该层的曝光部分或未曝光部分，以在印版中形成图像。

公开(公告)号：US06884557B2

公开(公告)日：2005-04-26

申请号：US10348410

申请日：2003-01-21

Applicant: Seishi Kasai ,  Tadahiro Sorori ,  Ryosuke Itakura ,  Eiichi Kato

Inventor： Seishi Kasai ,  Tadahiro Sorori ,  Ryosuke Itakura ,  Eiichi Kato

IPC: B41N3/08 ,  G03G13/28 ,  G03G9/00

CPC classification number: B41N3/08 ,  G03G13/28 ,  G03G13/283

Abstract: A desensitizing treatment liquid for offset printing plates, which contains a compound represented by formula (I) wherein φ represents —PO3H2, —OPO3H2, or the salt thereof and R1 represents an organic residue which may have a substituent. The desensitizing treatment liquid gives no problems to environmental pollution, is stable to the long-period storage and the continuous use, can shorten the etching treatment time, and is excellent in the desensitizing treatment ability as well as can provide an offset printing plate having a good reproducibility of highly minute images of a middle tone, screen tint, etc., and capable of printing without forming scumming at the non-image area.

Abstract translation: 一种胶版印刷用脱敏处理液，其含有式（I）表示的化合物，其中phi表示-PO 3 H 2 H 2，-OPO 3， H 2或其盐和R 1表示可以具有取代基的有机残基。 脱敏处理液对环境污染没有问题，对长期储存和连续使用是稳定的，可以缩短蚀刻处理时间，并且脱敏处理能力优异，并且可以提供具有 中等色调，丝网色调等高分辨率图像的重复性好，能够在非图像区域形成浮渣的情况下进行打印。

公开(公告)号：US20030194623A1

公开(公告)日：2003-10-16

申请号：US10348410

申请日：2003-01-21

Inventor： Seishi Kasai ,  Tadahiro Sorori ,  Ryosuke Itakura ,  Eiichi Kato

IPC: G03G009/00

CPC classification number: B41N3/08 ,  G03G13/28 ,  G03G13/283

Abstract: A desensitizing treatment liquid for offset printing plates, which contains a compound represented by formula (I) 1 wherein null represents nullPO3H2, nullOPO3H2, or the salt thereof and R1 represents an organic residue which may have a substituent. The desensitizing treatment liquid gives no problems to environmental pollution, is stable to the long-period storage and the continuous use, can shorten the etching treatment time, and is excellent in the desensitizing treatment ability as well as can provide an offset printing plate having a good reproducibility of highly minute images of a middle tone, screen tint, etc., and capable of printing without forming scumming at the non-image area.

Abstract translation: 含有由式（I）表示的化合物的胶版印刷版的脱敏处理液，其中phi表示-PO 3，高亮度，-OPO <下标3， 突出显示> H <下标> 2 ，或其盐，R <下标> 表示可以具有取代基的有机残基。 脱敏处理液对环境污染没有问题，对长期储存和连续使用是稳定的，可以缩短蚀刻处理时间，并且脱敏处理能力优异，并且可以提供具有 中等色调，丝网色调等高分辨率图像的重复性好，能够在非图像区域形成浮渣的情况下进行打印。

公开(公告)号：US20030143474A1

公开(公告)日：2003-07-31

申请号：US10034676

申请日：2001-12-21

Inventor： Patrick Friedman ,  Dominique LaPotre

IPC: G03G013/26 ,  B41N003/00 ,  B41M005/00

CPC classification number: G03G13/28 ,  G03G7/00 ,  G03G13/20 ,  G03G13/26 ,  G03G13/283

Abstract: A method of preparing an imaged element useful in lithographic printing comprises: (a) electrostatically imaging at least one surface of a substrate with a toner composition; (b) heating the imaged substrate a first time using non-contact heating to a first substrate temperature Tp; and (c) heating the imaged substrate a second time to a substrate temperature TF, wherein the method does not comprise a development step between steps (b) and (c). This method is used to obtain an imaged element with adequate fuser toning while avoiding substrate buckling and distortion.

Abstract translation: 制备用于平版印刷的成像元件的方法包括：（a）用调色剂组合物静电成像基片的至少一个表面; （b）使用非接触加热第一次加热成像的基片至第一基底温度Tp; 和（c）第二次将成像的衬底加热到​​衬底温度TF，其中该方法不包括步骤（b）和（c）之间的显影步骤。 该方法用于获得具有足够的定影调色的成像元件，同时避免基板屈曲和变形。

公开(公告)号：US06197847B1

公开(公告)日：2001-03-06

申请号：US09009131

申请日：1998-01-20

Applicant: Eiichi Kato ,  Sadao Osawa ,  Kazuo Ishii

Inventor： Eiichi Kato ,  Sadao Osawa ,  Kazuo Ishii

IPC: G09D1102

CPC classification number: G03G13/286 ,  G03G13/28 ,  G03G13/283

Abstract: An oil-based ink for a printing plate by an ink jet process comprising spraying an oil-based ink comprising at least resin particles dispersed in a non aqueous carrier liquid having an electric resistance of 109 &OHgr;cm or more and a dielectric constant of 3.5 or less on a water-resistant support having a lithographically printable hydrophilic surface dropwise from a nozzle to form an image, wherein said resin particles dispersed are copolymer resin particles obtained by polymerization granulation of a solution comprising (i) and (ii): (i) at least one monofunctional monomer (A) which is soluble in a nonaqueous solvent which is at least miscible with the nonaqueous carrier liquid and becomes insoluble in the nonaqueous solvent by polymerization; (ii) at least one resin for dispersion stabilization (P) which is soluble in the nonaqueous solvent and is a polymer comprising a repeating unit, wherein a part of the polymer is crosslinked and a polymerizable double bond group which is copolymerizable with the monomer (A) is combined with only one end of at least one main chain of the polymer, and a method for preparing a printing plate by an ink jet process using the ink.

Abstract translation: 一种喷墨法用于印版的油性油墨，其特征在于，喷涂至少含有分散在电阻为10 9Ω·cm以上，介电常数为3.5以下的非水性载体液中的树脂颗粒的油性油墨 在具有可喷墨亲水性表面的防水支撑体上从喷嘴滴落形成图像，其中所述分散的树脂颗粒是通过将包含（i）和（ii）的溶液聚合制粒得到的共聚物树脂颗粒：（i） 至少一种可溶于非水溶剂的单官能单体（A），该非水溶剂与非水载体液体至少可混溶，并通过聚合变得不溶于非水溶剂; （ii）至少一种用于分散稳定化的树脂（P），其可溶于非水溶剂，并且是包含重复单元的聚合物，其中一部分交联，和可与单体共聚的可聚合双键基团 A）仅与聚合物的至少一个主链的一端结合，以及通过使用该油墨的喷墨方法制备印刷版的方法。