公开(公告)号：US08673662B2

公开(公告)日：2014-03-18

申请号：US12511078

申请日：2009-07-29

Applicant: Tien-Tsai Lin

Inventor： Tien-Tsai Lin

IPC: H01L21/00

CPC classification number: H01L33/0095 ,  H01L33/20 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A light-emitting diode (LED) cutting method includes the following steps: positioning and retaining an LED die or an LED epitaxial substrate on a die retainer; introducing a liquid medium for preventing reflection of sound wave between a cutting tool and the die; activating a power source to drive a magnetostrictive material or piezoelectric ceramic material mounted on a machine to serve as a kinetic source by inducing volume expansion/compression that generates an up-and-down piston-like movement; and operating the cutting tool having super hard micro-particles of diamond, CBN, or SiC electroformed on the cutting tool to perform breaking cutting on an LED workpiece.

Abstract translation: 发光二极管（LED）切割方法包括以下步骤：将LED芯片或LED外延基板定位并保持在模具保持器上; 引入用于防止声波在切割工具与模具之间反射的液体介质; 激活电源以驱动安装在机器上的磁致伸缩材料或压电陶瓷材料，以通过引起产生上下活塞式运动的体积膨胀/压缩来​​用作动力源; 并且操作具有金刚石，CBN或SiC的超硬微粒的切割工具，电铸在切割工具上以在LED工件上执行断裂切割。

公开(公告)号：US06987162B2

公开(公告)日：2006-01-17

申请号：US10247484

申请日：2002-09-20

Applicant: Tien Tsai Lin

Inventor： Tien Tsai Lin

IPC: C08G73/10 ,  C23C14/00

CPC classification number: C08G73/00 ,  H05K1/0346 ,  H05K3/022

Abstract: The present invention relates to a method of producing high-density polyidimide (HPI) films and its production equipment. The production equipment comprises a raw material supplying means, a vacuum cavity, an energy supplier, a clad laminator, and a baked solidified polymer. The foregoing components constitutes the production equipment, using the monomer with the CONH bond or copolymer as raw materials to extract the unsaturated C═N bond by heat, electrons, light, radiation rays or ions as energy under low-pressure environment, so that the H in vacuum can extract the non-solidified HPI film from the electronic radical covalent polymers and via heat or light to rearrange the structure into a solidified HPI film. By means of the method according to the present invention, the original HPI that is not easily to produce as a film can be easily made in form of a film of HPI polymer on the clad laminator.

Abstract translation: 本发明涉及一种生产高密度聚酰亚胺（HPI）薄膜及其生产设备的方法。 生产设备包括原料供应装置，真空腔，能量供应商，复合层压机和烘烤的固化聚合物。 上述组分构成了使用具有CONH键或共聚物的单体作为原料的生产设备，通过热，电子，光，辐射线或离子作为能量在低压环境下提取不饱和CN键，使得H 真空可以从电子自由基共价聚合物和热或光提取非固化的HPI膜，将结构重新排列成固化的HPI膜。 通过本发明的方法，可以容易地在复合层压机上以HPI聚合物膜的形式制备不容易生产的原始HPI。

公开(公告)号：US06419804B1

公开(公告)日：2002-07-16

申请号：US09718221

申请日：2000-11-22

Applicant: Cheng-Shen Hsu ,  Tien-Tsai Lin

Inventor： Cheng-Shen Hsu ,  Tien-Tsai Lin

IPC: C23C1434

CPC classification number: C23C14/228 ,  C23C14/0036 ,  C23C14/06 ,  C23C14/12 ,  C23C14/352 ,  C23C14/355

Abstract: A contamination-resistant thin film deposition method utilizing a reaction-type vacuum sputtering process in which an organic tetrafluoroethylene plastic and conductor substances are sputtered onto a substrate to deposit a thin film onto the substrate, with the thin film deriving its contamination-resistant capability from the anti-stick properties of the tetrafluoroethylene plastic and the anti-static properties of the conductor substances. The contamination-resistant thin film deposition method utilizes a configured tetrafluoroethylene plastic target structure that includes a negative substrate, a filiform electrode, an insulative support, a tetrafluoroethylene plastic sputtering substrate, a positive substrate, a tetrafluoroethylene plastic substrate rotating device, a magnetic field generator, and a gas input port. A 2 mm to 5 mm interval is left in between the positive substrate and the tetrafluoroethylene plastic substrate to facilitate the generation of a positive charge and effectively utilize the energy of the Faraday positive shaded region effect to invoke collisions off the tetrafluoroethylene plastic.

Abstract translation: 使用反应型真空溅射法的耐污染薄膜沉积方法，其中将有机四氟乙烯塑料和导体物质溅射到基底上以将薄膜沉积到基底上，薄膜得到其抗污染能力 四氟乙烯塑料的防粘性能和导体物质的抗静电性能。 耐污染薄膜沉积方法采用构造的四氟乙烯塑料靶结构，其包括负极基底，丝状电极，绝缘支撑体，四氟乙烯塑料溅射基板，正基板，四氟乙烯塑料基板旋转装置，磁场发生器 ，以及气体输入口。 在正极基板和四氟乙烯塑料基板之间留有2毫米至5毫米的间隔，以便于产生正电荷并有效利用法拉第阳性阴影区域效应的能量来调用四氟乙烯塑料的碰撞。

公开(公告)号：USD453340S1

公开(公告)日：2002-02-05

申请号：US29144074

申请日：2001-06-25

Applicant: Tien-Tsai Lin

Designer： Tien-Tsai Lin

公开(公告)号：US20130043431A1

公开(公告)日：2013-02-21

申请号：US13210390

申请日：2011-08-16

Applicant: TIEN-TSAI LIN

Inventor： TIEN-TSAI LIN

IPC: C09K11/02 ,  C09K11/80 ,  C08L63/00 ,  C08K3/22 ,  B82Y30/00

CPC classification number: C08K3/22 ,  B82Y20/00 ,  B82Y30/00 ,  C08L63/00 ,  C09K11/02 ,  C09K11/7774

Abstract: A material composition with specific segment wavelength matching refractive index includes (a) resin or a composite thereof to serve as a bonding agent and (b) a medium material of metal oxides or complex metal oxides of specific particle size to serve as an additive for specific segment wavelength matching refractive index. The composition is formed by combining the bonding agent and additive. The composition material uses the wavelength of light emitting from a light-emitting diode (LED) die or excited from a fluorescent agent as the range of a segment to add nanometer particles of D=λ/4n optic thickness as basis for formation of an effective medium layer and thus providing a matching refractive index for wavelength of the specific segment bandwidth. Corresponding to different refractive indexes nx of LED die materials, proper amounts of nanometer particles are selectively added to have the refractive index match the LED die.

Abstract translation: 具有特定段波长匹配折射率的材料组合物包括（a）树脂或其复合材料以用作粘合剂，和（b）特定粒度的金属氧化物或复合金属氧化物的介质材料，以用作特定的添加剂 片段波长匹配折射率。 通过组合粘合剂和添加剂形成组合物。 组合物材料使用从发光二极管（LED）裸片发射或从荧光剂激发的光的波长作为段的范围以添加D =λ/ 4n光学厚度的纳米颗粒作为形成有效的基底 从而为特定片段带宽的波长提供匹配的折射率。 对应于LED芯片材料的不同折射率nx，选择性地添加适量的纳米颗粒以使折射率与LED裸片相匹配。

公开(公告)号：US08323772B2

公开(公告)日：2012-12-04

申请号：US12694286

申请日：2010-01-27

Applicant: Tien-Tsai Lin

Inventor： Tien-Tsai Lin

IPC: B32B5/16 ,  G02B1/10 ,  G02B5/02

CPC classification number: G02B5/02 ,  B82Y20/00 ,  C08J7/047 ,  Y10T428/24372 ,  Y10T428/2438 ,  Y10T428/24413 ,  Y10T428/25 ,  Y10T428/258 ,  Y10T428/2991

Abstract: A photon-alignment optical film includes a film substrate on which at least one layer of core/shell nanoparticles is coated. The core/shell nanoparticle layer includes a plastic substance, which is photo curable or heat curable, and a plurality of core/shell nanoparticles, which is uniformly distributed in the plastic substance. Light energy is used as a driving force to induce electrical potential of the same polarity on the surfaces of the core/shell nanoparticles to make the core/shell nanoparticles rearranged in the form of a matrix due to repulsion induced between like electrical polarity. Spacing between the particles, which is relatively constant, allows light to pass therethrough. The plastic substance is cured by light or heat to have the core/shell nanoparticles set in position to thereby form the optical film. Such an optical film features both diffusion and brightness enhancement.

Abstract translation: 光子取向光学膜包括其上涂覆有至少一层核/壳纳米颗粒的膜基材。 核/壳纳米颗粒层包括可光固化或可热固化的塑料物质，以及均匀分布在塑料物质中的多个核/壳纳米颗粒。 光能被用作在芯/壳纳米颗粒的表面上诱导相同极性的电势的驱动力，以使核/壳纳米颗粒由于类似电极性引起的排斥而以矩阵的形式重新排列。 颗粒之间的间距相对恒定，允许光通过。 通过光或热固化塑料物质，使核/壳纳米颗粒置于适当位置从而形成光学膜。 这种光学薄膜同时具有扩散和亮度增强。

公开(公告)号：USD453520S1

公开(公告)日：2002-02-12

申请号：US29144073

申请日：2001-06-25

Applicant: Tien-Tsai Lin

Designer： Tien-Tsai Lin

公开(公告)号：US20110181958A1

公开(公告)日：2011-07-28

申请号：US12694286

申请日：2010-01-27

Applicant: TIEN-TSAI LIN

Inventor： TIEN-TSAI LIN

IPC: G02B5/02 ,  B32B5/16 ,  B32B5/22 ,  B32B27/04

CPC classification number: G02B5/02 ,  B82Y20/00 ,  C08J7/047 ,  Y10T428/24372 ,  Y10T428/2438 ,  Y10T428/24413 ,  Y10T428/25 ,  Y10T428/258 ,  Y10T428/2991

Abstract: A photon-alignment optical film includes a film substrate on which at least one layer of core/shell nanoparticles is coated. The core/shell nanoparticle layer includes a plastic substance, which is photo curable or heat curable, and a plurality of core/shell nanoparticles, which is uniformly distributed in the plastic substance. Light energy is used as a driving force to induce electrical potential of the same polarity on the surfaces of the core/shell nanoparticles to make the core/shell nanoparticles rearranged in the form of a matrix due to repulsion induced between like electrical polarity. Spacing between the particles, which is relatively constant, allows light to pass therethrough. The plastic substance is cured by light or heat to have the core/shell nanoparticles set in position to thereby form the optical film. Such an optical film features both diffusion and brightness enhancement.

Abstract translation: 光子取向光学膜包括其上涂覆有至少一层核/壳纳米颗粒的膜基材。 核/壳纳米颗粒层包括可光固化或可热固化的塑料物质，以及均匀分布在塑料物质中的多个核/壳纳米颗粒。 光能被用作在芯/壳纳米颗粒的表面上诱导相同极性的电势的驱动力，以使核/壳纳米颗粒由于类似电极性引起的排斥而以矩阵的形式重新排列。 颗粒之间的间距相对恒定，允许光通过。 通过光或热固化塑料物质，使核/壳纳米颗粒置于适当位置从而形成光学膜。 这种光学薄膜同时具有扩散和亮度增强。

公开(公告)号：US20110150751A1

公开(公告)日：2011-06-23

申请号：US12640003

申请日：2009-12-17

Applicant: TIEN-TSAI LIN

Inventor： TIEN-TSAI LIN

IPC: C01B5/00 ,  B01J19/00

CPC classification number: C01B5/00 ,  A61L2/18 ,  C02F1/30 ,  C02F1/36 ,  C02F2201/48 ,  C02F2209/02 ,  C02F2305/10

Abstract: A method for manufacturing green-energy water, including: conducting water flow through a self-support visible-light photocatalytic reaction device, which decomposes the water into hydrogen ions and hydroxide ions; conducting the hydrogen ions and the hydroxide ions through an ion separation device, which separates the hydrogen ions and the hydroxide ions from each other; and conducting the separated hydroxide ions into an amount of water to form an amount of alkaline green-energy water and conducting the separated hydrogen ions into another amount of water to form an amount of acidulous green-energy water. The green-energy water manufactured in this way is environmentally friendly and can be used in cleaning purposes of photoelectric and semiconductor industries, processing of waste water, organic cultivation, organic agriculture, purification of water, sterilization of medical facility.

Abstract translation: 一种生产绿色能源水的方法，包括：通过自支撑可见光光催化反应装置导水，将水分解成氢离子和氢氧根离子; 通过将氢离子和氢氧根离子彼此分离的离子分离装置导入氢离子和氢氧根离子; 并将分离的氢氧根离子导入一定量的水中以形成一定量的碱性绿能水，并将分离的氢离子导入另一量的水中以形成一定量的酸性绿色能水。 以这种方式制造的绿色能源水是环保的，可用于光电和半导体工业的清洁，废水处理，有机耕种，有机农业，水净化，医疗设备的灭菌。

公开(公告)号：US20110027927A1

公开(公告)日：2011-02-03

申请号：US12511078

申请日：2009-07-29

Applicant: TIEN-TSAI LIN

Inventor： TIEN-TSAI LIN

IPC: H01L33/00 ,  H01L21/304

CPC classification number: H01L33/0095 ,  H01L33/20 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A light-emitting diode (LED) cutting method includes the following steps: (A) positioning and retaining an LED chip or an LED epitaxial substrate on a chip retainer; (B) introducing a liquid medium to serve as a sound wave reflection layer medium between a cutting tool and the chip; (C) activating a power source to drive a magnetostrictive or piezoelectric ceramic material mounted on a machine to serve as a power source by inducing volume expansion/compression that generates up-and-down piston-like movement; and (D) operating the cutting tool of a proper shape that has a surface on which super hard micro-particles of diamond, CBN, or SiC are electroformed to carry out up-and-down piston-like reciprocal motion on the material retained on the chip retainer to drive the super hard micro-particles on the surface of the cutting tool into a pre-cut workpiece to perform breaking cutting.

Abstract translation: 一种发光二极管（LED）切割方法包括以下步骤：（A）将LED芯片或LED外延基板定位并保持在芯片保持器上; （B）引入液体介质以用作切割工具和芯片之间的声波反射层介质; （C）激活电源以驱动安装在机器上的磁致伸缩或压电陶瓷材料，以通过引起产生上下活塞式运动的体积膨胀/压缩来​​用作电源; 和（D）操作具有正面形状的切割工具，该表面具有金刚石，CBN或SiC的超硬微粒子电铸成形的表面，以在保留在其上的材料上进行上下活塞式的往复运动 将切削刀具表面上的超硬微粒子驱动到预切割工件中以进行切割切割。