公开(公告)号：US06593688B2

公开(公告)日：2003-07-15

申请号：US09995950

申请日：2001-11-27

申请人： O-Ok Park ,  Tae-Woo Lee

发明人： O-Ok Park ,  Tae-Woo Lee

IPC分类号： H05B3320

CPC分类号： C09K11/02 ,  C09K11/06 ,  H05B33/14 ,  Y10S428/917

摘要： The present invention relates to an organic luminescent material/clay nanocomposite with improved luminescent efficiency and stability, which is prepared by blending an organic luminescent material with a nanoclay, and an electroluminescent device employing the same. The electroluminescent device of the invention comprises: a transparent substrate; a semitransparent electrode deposited on the transparent substrate; a clay nanocomposite emissive layer spin-coated with an organic EL material/clay nanocomposite, positioned on the semitransparent electrode; and, a metal electrode deposited on the clay nanocomposite emissive layer. Since the electroluminescent device of the invention provides improved luminescent efficiency and stability, it can be practically applied to the development of organic semi-conductor.

公开(公告)号：US06538263B1

公开(公告)日：2003-03-25

申请号：US09868733

申请日：2001-06-18

申请人： O-Ok Park ,  Tae-Woo Lee

发明人： O-Ok Park ,  Tae-Woo Lee

IPC分类号： H01L3524

CPC分类号： H05B33/14 ,  C08L101/12 ,  C09K11/06 ,  H01L51/0035 ,  H01L51/0036 ,  H01L51/0038 ,  H01L51/0042 ,  H01L51/0043 ,  H01L51/5012 ,  H01L2251/308

摘要： The present invention provides ionomer-type emissive polymer whose heat-stability is improved by the formation of ionic cross-link, and electroluminescent device employing the same as an emissive layer. The ionomer-type emissive polymer is characterized by an ionomeric conformation, which has a backbone in a conjugate, non-conjugate or conjugate/non-conjugate multi-block conformation with or without a side chain in a conjugate or non-conjugate conformation, and 0.1 to 15% (mol/mol) of ions bound to the backbone or side chain of the emissive polymer with or without linker. The electroluminescent diode employing ionomer-type emissive polymer can be applied to the preparation of long-life and electricity-saving electroluminescent display device since it can luminesce at low voltage due to its ionomeric conformation and have higher heat-stability than the conventional ones.

摘要翻译： 本发明提供了通过形成离子交联而改善其热稳定性的离聚物型发光聚合物，以及使用其作为发光层的电致发光器件。 离聚物型发射聚合物的特征在于离聚物构象，其在缀合物中具有骨架，在缀合物或非共轭构象中具有或不具有侧链的非共轭或共轭/非共轭多嵌段构象，以及 与具有或不具有接头的发光聚合物的主链或侧链结合的离子为0.1至15％（mol / mol）。 采用离聚物型发光聚合物的电致发光二极管可以用于制备长寿命和节能的电致发光显示装置，因为它可以由于其离聚物构象而在低电压下发光并且具有比常规的更高的热稳定性。

公开(公告)号：US07740771B2

公开(公告)日：2010-06-22

申请号：US11559191

申请日：2006-11-13

申请人： Young-Chul Kim ,  Hyun-Nam Cho ,  Tae-Woo Lee ,  O-Ok Park ,  Jai-Kyeong Kim ,  Jae-Woong Yu

发明人： Young-Chul Kim ,  Hyun-Nam Cho ,  Tae-Woo Lee ,  O-Ok Park ,  Jai-Kyeong Kim ,  Jae-Woong Yu

IPC分类号： C09K11/06

CPC分类号： C09K11/06 ,  C09K2211/14 ,  C09K2211/1408 ,  C09K2211/1441 ,  H01L51/0038 ,  H01L51/0039 ,  H01L51/0043 ,  H01L51/0059 ,  H01L51/0062 ,  H01L51/0081 ,  H01L51/5036 ,  H01L51/5048 ,  H05B33/14 ,  Y02B20/181 ,  Y10S428/917

摘要： Organic white-light-emitting blend materials were prepared by light-doping method and electroluminescent devices fabricated using the same, including a transparent substance, translucent electrode, white-light-emitting layer and metal electrode in order, can efficiently control Förster energy transfer in organic light-emitting materials by performing light doping, thus to fabricate a white electroluminescent device using the blend materials which can emit white-light with high efficiency. The white-light-emitting blend materials can be obtained by the light-doping method, in which the energy transfer occurs only between a host which is a donor and each dopant which is an acceptor, while the energy transfers between dopants are efficiently blocked.

摘要翻译： 通过光掺杂法制备有机白发光混合材料，并使用其制造的电致发光器件，包括透明物质，透光性电极，白色发光层和金属电极，可以有效地控制Förster能量转移 通过进行轻掺杂的有机发光材料，从而以能够以高效率发出白光的共混材料制造白色电致发光器件。 白光发射掺杂材料可以通过光掺杂方法获得，其中能量转移仅发生在作为施主的主体和作为受主的每种掺杂剂之间，而掺杂剂之间的能量转移被有效地阻挡。

公开(公告)号：US07118810B2

公开(公告)日：2006-10-10

申请号：US09995816

申请日：2001-11-27

申请人： O-Ok Park ,  Tae-Woo Lee

发明人： O-Ok Park ,  Tae-Woo Lee

IPC分类号： H05B33/12

CPC分类号： H01L51/5092 ,  H01L51/004 ,  H01L51/10 ,  H01L51/5088 ,  Y10S428/917

摘要： The present invention relates to electroluminescent devices employing single-ion conductors as the materials for an electron- or hole-injecting layer. Preferred electroluminescent devices employ an electron- or hole-injecting layer made of single-ion conductors in a conventional electroluminescent device which comprises: a transparent substrate; a semitransparent electrode deposited on the transparent substrate; a hole-injecting layer positioned on the semitransparent electrode; an electroluminescent layer made of organic luminescent material, positioned on the hole-injecting layer; an electron-injecting layer positioned on the electroluminescent layer; and, a metal electrode deposited on the electron-injecting layer. The electroluminescent devices of the invention have excellent electroluminescent efficiency and low turn-on voltage, which make possible their application to the development of high efficiency electroluminescent devices.

摘要翻译： 本发明涉及采用单离子导体作为电子或空穴注入层的材料的电致发光器件。 优选的电致发光器件在常规电致发光器件中采用由单离子导体制成的电子或空穴注入层，其包括：透明衬底; 沉积在透明基板上的半透明电极; 位于半透明电极上的空穴注入层; 位于空穴注入层上的由有机发光材料制成的电致发光层; 位于电致发光层上的电子注入层; 以及沉积在电子注入层上的金属电极。 本发明的电致发光器件具有优异的电致发光效率和低导通电压，这使得其可用于开发高效电致发光器件成为可能。

公开(公告)号：US07520933B2

公开(公告)日：2009-04-21

申请号：US11512413

申请日：2006-08-30

申请人： O-Ok Park ,  Mun-Ho Kim ,  Sang-Hyuk Im

发明人： O-Ok Park ,  Mun-Ho Kim ,  Sang-Hyuk Im

IPC分类号： C30B7/04

CPC分类号： C30B15/00 ,  C30B5/00

摘要： Disclosed is a method of manufacturing colloidal crystals using a confined convective assembly, more particularly, to a method for manufacturing two-dimensional and/or three dimensional colloidal crystals on a substrate by infusing colloidal suspension between two substrates and self-assembling colloidal particles by capillary action. The present invention can control a convective flow moving the colloidal particles to a meniscus generated by removing the solvent of the colloidal suspension. It is possible to manufacture face-to-face two-dimensional colloidal crystals and/or three-dimensional colloidal crystals within a short time using various sizes of colloidal particles through the control of the convective flow of colloidal particles, which are not easily achieved in the existing method. The present invention can use two-dimensional colloidal crystals and/or three-dimensional colloidal crystals manufactured using the confined convective assembly method in the various fields such as in biosensors and devices, information storing medium, display devices and optical devices.

摘要翻译： 公开了一种使用密闭对流组件制造胶体晶体的方法，更具体地说，涉及通过在两个基片之间注入胶体悬浮液并通过毛细管自组装胶体粒子在基底上制造二维和/或三维胶体晶体的方法 行动。 本发明可以控制将胶体颗粒移动到通过除去胶体悬浮液的溶剂产生的弯液面的对流。 可以通过控制胶体颗粒的对流流动，在短时间内制造面对面的二维胶体晶体和/或三维胶体晶体，这些胶体颗粒不容易实现 现有的方法。 本发明可以使用在生物传感器和装置，信息存储介质，显示装置和光学装置等各种领域中使用限制对流装配方法制造的二维胶体晶体和/或三维胶体晶体。

公开(公告)号：US20080053369A1

公开(公告)日：2008-03-06

申请号：US11512413

申请日：2006-08-30

申请人： O-Ok Park ,  Mun-Ho Kim ,  Sang-Hyuk Im

发明人： O-Ok Park ,  Mun-Ho Kim ,  Sang-Hyuk Im

IPC分类号： C30B15/00 ,  C30B19/00

CPC分类号： C30B15/00 ,  C30B5/00

摘要： Disclosed is a method of manufacturing colloidal crystals using a confined convective assembly, more particularly, to a method for manufacturing two-dimensional and/or three dimensional colloidal crystals on a substrate by infusing colloidal suspension between two substrates and self-assembling colloidal particles by capillary action. The present invention can control a convective flow moving the colloidal particles to a meniscus generated by removing the solvent of the colloidal suspension. It is possible to manufacture face-to-face two-dimensional colloidal crystals and/or three-dimensional colloidal crystals within a short time using various sizes of colloidal particles through the control of the convective flow of colloidal particles, which are not easily achieved in the existing method.The present invention can use two-dimensional colloidal crystals and/or three-dimensional colloidal crystals manufactured using the confined convective assembly method in the various fields such as in biosensors and devices, information storing medium, display devices and optical devices.

摘要翻译： 公开了一种使用密闭对流组件制造胶体晶体的方法，更具体地说，涉及通过在两个基片之间注入胶体悬浮液并通过毛细管自组装胶体粒子在基底上制造二维和/或三维胶体晶体的方法 行动。 本发明可以控制将胶体颗粒移动到通过除去胶体悬浮液的溶剂产生的弯液面的对流。 可以通过控制胶体颗粒的对流流动，在短时间内制造面对面的二维胶体晶体和/或三维胶体晶体，这些胶体颗粒不容易实现 现有的方法。 本发明可以使用在生物传感器和装置，信息存储介质，显示装置和光学装置等各种领域中使用限制对流装配方法制造的二维胶体晶体和/或三维胶体晶体。

公开(公告)号：US06692650B2

公开(公告)日：2004-02-17

申请号：US10030075

申请日：2002-01-10

申请人： O-Ok Park ,  Jong-Hyeok Park ,  Byung-Doo Chin

发明人： O-Ok Park ,  Jong-Hyeok Park ,  Byung-Doo Chin

IPC分类号： H01F122

CPC分类号： H01F1/44

摘要： The present invention provides a magnetorheological fluid in which magnetic particles coated with a hydrophilic surfactant are dispersed in a water in oil emulsion, and a process for preparing the same. The magnetorheological fluid of the present invention is prepared by adding water to oil dissolved with emulsifier, stirring it to give a mobile phase of water in oil emulsion, and dispersing magnetic particles coated with a hydrophilic surfactant in the water in oil emulsion. The invented magnetorheological fluid is improved in terms of stability through the interaction between surfactant of the magnetic particle surface and water molecule, which makes possible its practical application in the development of variable devices employing the magnetorheological fluid.

摘要翻译： 本发明提供一种磁性流变液，其中涂覆有亲水性表面活性剂的磁性颗粒分散在油包水乳液中，以及其制备方法。 本发明的磁流变液通过向溶解有乳化剂的油中加入水，搅拌，得到水乳液中的流动相，并将涂有亲水性表面活性剂的磁性颗粒分散在油包水乳液中制备。 本发明的磁流变液通过磁性颗粒表面的表面活性剂与水分子的相互作用而在稳定性方面得到改善，这使得其可用于开发使用磁流变流体的可变装置成为可能。