公开(公告)号：US20040224081A1

公开(公告)日：2004-11-11

申请号：US10653990

申请日：2003-09-04

Applicant: Industrial Technology Research Institute

Inventor： Jyh-Rong Sheu ,  Chun-Tao Lee ,  Cheng-Chung Lee ,  Jia-Chong Ho ,  Yu-Yang Chang

IPC: B05D003/12

CPC classification number: B82Y30/00 ,  B82Y10/00 ,  H01J1/304 ,  H01J9/025 ,  H01J2201/30469

Abstract: The invention relates to a method for carbon nanotube emitter surface treatment, which is used to increase the number of carbon nanotube exposed on the triode structure device. For advancing the current density and magnitude of CNT emitter, the invention uses a method of casting surface treatment on the CNT emitter including the steps of coating an adhesive material on the surface of device; heating the adhesive material for adhibitting the surface; and lifting the adhesive material off.

Abstract translation: 本发明涉及碳纳米管发射体表面处理方法，其用于增加暴露在三极管结构器件上的碳纳米管的数量。 为了提高CNT发射体的电流密度和幅度，本发明使用在CNT发射体上进行表面处理的方法，包括在器件表面上涂覆粘合剂材料的步骤; 加热用于粘合表面的粘合剂材料; 并提起粘合剂材料。

公开(公告)号：US20040121695A1

公开(公告)日：2004-06-24

申请号：US10603546

申请日：2003-06-25

Applicant: Industrial Technology Research Institute

Inventor： Wei-Yi Lin ,  Ming-Chun Hsiao ,  Cheng-Chung Lee ,  Kang-Hung Liu ,  Ching-Hsiang Chan ,  Yang-Yi Fan ,  Hsin-Chun Chiang

IPC: H01J009/00 ,  H01J009/24

CPC classification number: H01J9/242 ,  H01J2329/8625

Abstract: A method of relocating spacers using inductive attraction. A chuck employs the inductive attraction to lift field emission display (FED) spacers, wherein the spacers are provided with susceptibility to the employed attraction. The spacers are lifted by the chuck and relocated to a desired position. The inductive process uses a non-contact force, including electrostatic and magnetic forces.

Abstract translation: 使用感应吸引力重新定位间隔物的方法。 卡盘采用感应吸引力来提升场发射显示（FED）间隔物，其中间隔物对使用的吸引物具有敏感性。 间隔物被卡盘提升并且重新定位到期望的位置。 感应过程使用非接触力，包括静电和磁力。

公开(公告)号：US20040130261A1

公开(公告)日：2004-07-08

申请号：US10739077

申请日：2003-12-19

Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE

Inventor： Ming-Chun Hsiao ,  Cheng-Chung Lee ,  Yu-Yang Chang

IPC: H01J001/62 ,  H01J063/04

CPC classification number: H01J9/185 ,  H01J2329/00

Abstract: This invention is an improved processing method and structure for the packaging technique of a large size field emission display. A large size field emission display includes an indium-tin oxides (ITO) conducting glass substrate, which is covered by the first screen mask and the second screen mask defined to a BM layer area, a multi-phosphor layer area and a hollow area. Each area was coated to form an Al layer, which was formed an AlOx layer through a phosphor sintering process. The spacer was fixed in a hollow area of an AlOx layer through an anodic assembling technique. The next plate was fixed on the spacer to accomplish an aligner process.

Abstract translation: 本发明是用于大尺寸场发射显示器的封装技术的改进的处理方法和结构。 大尺寸场致发射显示器包括由第一屏蔽掩模覆盖的铟锡氧化物（ITO）导电玻璃基板和限定到BM层区域的第二屏蔽掩模，多磷光体层区域和中空区域。 每个区域被涂覆以形成Al层，其通过荧光体烧结工艺形成AlO x层。 间隔件通过阳极组装技术固定在AlOx层的中空区域中。 将下一个板固定在间隔件上以完成对准器工艺。

公开(公告)号：US20020175618A1

公开(公告)日：2002-11-28

申请号：US09864013

申请日：2001-05-23

Applicant: Industrial Technology Research Institute

Inventor： Cheng-Chung Lee ,  Jane-Hway Liao ,  Hua-Chi Cheng ,  Wen-Chun Wang

IPC: H01J001/62 ,  H01J001/05

CPC classification number: B82Y10/00 ,  H01J3/021 ,  H01J31/127 ,  H01J2201/30469 ,  Y10S977/952

Abstract: A field emission display panel device that incorporates carbon nanotube emitter layers for emitting electrons wherein the carbon nanotube layers has a smaller width than the conductive paste layers it is deposited on is disclosed. The width of the carbon nanotube layer should be less than null of the width of the conductive paste layer, or in a range between about null and null of the width of the conductive paste layer, i.e. such as a silver paste layer. The present invention novel structure prevents the overflow of the carbon nanotubes, after a curing process for the nanotubes is conducted, onto the sidewall of the conductive paste layer, and thus significantly improves the electron density projected toward the flourescent powder coating layer to produce an image with reduced electron scattering. As a result, image clarity, definition and contrast can be improved in the FED device.

Abstract translation: 公开了一种场致发射显示面板装置，其包括用于发射电子的碳纳米管发射极层，其中碳纳米管层具有比其沉积的导电浆料层小的宽度。 碳纳米管层的宽度应小于导电膏层的宽度的3/4，或者在导电浆料层的宽度的大约1/4和¾之间的范围内，即银膏层。 本发明的新颖结构防止了碳纳米管在纳米管的固化过程进行之后在导电浆料层的侧壁上溢出，从而显着提高了向荧光粉末涂层投射的电子密度，从而产生图像 具有减少的电子散射。 因此，可以在FED设备中改善图像清晰度，清晰度和对比度。

公开(公告)号：US20040104668A1

公开(公告)日：2004-06-03

申请号：US10436796

申请日：2003-05-13

Applicant: Industrial Technology Research Institute

Inventor： Chun-Tao Lee ,  Cheng-Chung Lee ,  Jyh-Rong Sheu ,  Yu-Yang Chang ,  Jia-Chong Ho ,  Yu-Wu Wang

IPC: H01J001/62 ,  H01J063/04

CPC classification number: H01J3/022 ,  H01J1/72 ,  H01J9/025

Abstract: A triode structure of a field emission display and fabrication method thereof. A plurality of cathode layers arranged in a matrix is formed overlying a dielectric layer. A plurality of emitting layers arranged in a matrix is formed overlying the cathode layers, respectively. A plurality of lengthwise-extending gate lines is formed on the dielectric layer, in which each of the gate layers is disposed between two adjacent columns of the cathode layers.

Abstract translation: 场致发射显示器的三极管结构及其制造方法。 以矩阵形式布置的多个阴极层形成在电介质层的上方。 排列成矩阵状的多个发光层分别形成在阴极层的上方。 在电介质层上形成多个纵向延伸的栅极线，其中每个栅极层设置在两个相邻的阴极层之间。

公开(公告)号：US20030132698A1

公开(公告)日：2003-07-17

申请号：US10042322

申请日：2002-01-11

Applicant: INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE

Inventor： Ming-Chun Hsiao ,  Cheng-Chung Lee

IPC: H01J001/62 ,  H01J063/04

CPC classification number: H01J29/863 ,  H01J9/261

Abstract: The present invention describes a package method for a field emission display. First, a photolithography or a laser process is used to fix the location of the side glasses on the anode and cathode plates. Next, these side glasses are respectively bonded to the anode and cathode plates. Then, an alignment process is performed to generate a gap between the side glasses and the gap is filled with glass frits. Finally, the whole structure undergoes a thermal cycle to make the side glasses adhere to each other so that the anode plate and the cathode plate may be sealed.

Abstract translation: 本发明描述了用于场发射显示的封装方法。 首先，使用光刻或激光工艺来将侧眼玻璃的位置固定在阳极和阴极板上。 接下来，这些侧面玻璃分别结合到阳极和阴极板。 然后，进行对准处理以产生侧眼玻璃之间的间隙，并且间隙填充有玻璃料。 最后，整个结构经历热循环以使侧玻璃彼此粘附，使得阳极板和阴极板可以被密封。

公开(公告)号：US20020135295A1

公开(公告)日：2002-09-26

申请号：US09812746

申请日：2001-03-20

Applicant: Industrial Technology Research Institute

Inventor： Wen-Chun Wang ,  Cheng-Chung Lee ,  Feng-Yu Chuang ,  Jane-Hway Liao ,  Jyh-Rong Sheu ,  Cheng-hsiem Han

IPC: H01J001/304 ,  H01J019/24

CPC classification number: B82Y10/00 ,  H01J31/127 ,  Y10S977/952

Abstract: A field emission display panel that utilizes nanotube emitters as electron sources and is equipped with two cathodes i.e. a primary cathode and an auxiliary cathode, and an anode is provided. The nanotube emitters can be suitably formed by nanometer-dimensioned hollow tubes of carbon, diamond or diamond-like carbon mixed in a polymeric-based binder. The nanotube emitters are formed in two parallelly-positioned, spaced-apart rows on top of an electrode layer such as a silver paste by a thick film printing technique. Since both the primary cathode and the anode are formed on the bottom glass plate, the operating voltage can be controlled by the thickness of the dielectric layer that is used in forming the nanotube emitter stacks. An auxiliary cathode formed of an electrically conductive material is coated on the interior surface of a top glass plate to further repel electrons in a downward direction toward the anode on the bottom glass plate. As a result, the distance between the top plate and the bottom plate can be chosen to allow the rapid evacuation of the panel cavity to form a high vacuum therein without affecting the operating voltage of the device. The present invention novel FED panel can be fabricated with a large panel area and at a low cost.

Abstract translation: 提供了利用纳米管发射体作为电子源并配备有两个阴极，即初级阴极和辅助阴极以及阳极的场致发射显示面板。 纳米管发射体可以由混合在基于聚合物的粘合剂中的碳，金刚石或类金刚石的纳米尺寸的中空管适当地形成。 纳米管发射体通过厚膜印刷技术在诸如银浆的电极层的顶部上以两个平行定位的间隔开的行形成。 由于初级阴极和阳极都形成在底部玻璃板上，所以可以通过用于形成纳米管发射极叠层的电介质层的厚度来控制工作电压。 由导电材料形成的辅助阴极涂覆在顶部玻璃板的内表面上，以在向下的方向上朝向底部玻璃板上的阳极进一步排斥电子。 结果，可以选择顶板和底板之间的距离，以允许快速抽出面板空腔以在其中形成高真空而不影响装置的工作电压。 本发明的新型FED面板可以制造成具有大的面板面积和低成本。

公开(公告)号：US20040029482A1

公开(公告)日：2004-02-12

申请号：US10443636

申请日：2003-05-22

Applicant: Industrial Technology Research Institute

Inventor： Shaue-An Yang ,  Cheng-Chung Lee ,  Ming-Chun Hsiao ,  Jung-Tang Huang

IPC: H01J009/00

CPC classification number: H01J9/025 ,  H01J9/185 ,  Y10T29/49039

Abstract: A method of bonding spacers to an anode plate of a field emission display. An anode plate having separate phosphor regions is provided, wherein a black matrix material is provided to separate the phosphor regions from one another. A magnetic layer is formed on the black matrix material. A thin metal film is formed on the anode plate and the magnetic layer. Spacers are disposed on the metal film above the black matrix material. An electromagnetic induction procedure is performed to heat the magnetic layer and thus serves as a heating source to produce heat, wherein the heat goes through the metal film to heat the spacers. A direct current (D.C.) electric field procedure is performed to bond the spacers to the metal film above the black matrix material.

Abstract translation: 将间隔物接合到场发射显示器的阳极板的方法。 提供具有分离的荧光体区域的阳极板，其中提供黑色矩阵材料以将荧光体区域彼此分离。 在黑色矩阵材料上形成磁性层。 在阳极板和磁性层上形成薄金属薄膜。 间隔物设置在黑色矩阵材料上方的金属膜上。 执行电磁感应过程以加热磁性层，从而用作加热源以产生热量，其中热量穿过金属膜以加热间隔物。 执行直流（DC）电场程序以将间隔物粘结到黑色矩阵材料上方的金属膜上。

公开(公告)号：US20020175617A1

公开(公告)日：2002-11-28

申请号：US09864005

申请日：2001-05-23

Applicant: Industrial Technology Research Institute

Inventor： Cheng-Chung Lee ,  Jane-Hway Liao ,  Hua-Chi Cheng ,  Wen-Chun Wang

IPC: H01J063/04 ,  H01J001/02 ,  H01J009/24

CPC classification number: B82Y10/00 ,  H01J3/021 ,  H01J31/126 ,  Y10S977/952

Abstract: A field emission display panel of the diode structure that has a dual-layer cathode and an anode formed on a bottom glass panel and a method for such fabrication are disclosed. In the FED panel, a plurality of emitter stacks is formed each having a layer of dielectric material, a first layer of a conductive paste coated with a layer of nanotube emitters on a peripheral, sidewall surface as a cathode, and a second layer of the conductive paste deposited on top of the nanotube emitter layer. The first layer and the second layer are formed in a column shape. The second conductive paste layer stops any nanotubes left on a top surface of the first conductive paste layer from emitting electrons in an upward direction and restricts all emitted electrons in a downward direction.

Abstract translation: 公开了具有形成在底部玻璃面板上的双层阴极和阳极的二极管结构的场致发射显示面板及其制造方法。 在FED面板中，形成多个发射极叠层，每个具有介电材料层，在作为阴极的外围侧壁表面上涂覆有纳米管发射体层的导电浆料的第一层，以及第二层 导电浆料沉积在纳米管发射极层的顶部。 第一层和第二层形成为柱状。 第二导电浆料层阻止剩余在第一导电浆料层的顶表面上的任何纳米管沿向上的方向发射电子并且限制所有发射的电子向下的方向。