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    • 3. 发明申请
    • LIGHT EMITTING DEVICE WITH MICROLENS ARRAY
    • 具有微阵列的发光装置
    • US20080310186A1
    • 2008-12-18
    • US11763264
    • 2007-06-14
    • Krishnan ChariCharles W. LanderLiang-Sheng LiaoPaul D. Yacobucci
    • Krishnan ChariCharles W. LanderLiang-Sheng LiaoPaul D. Yacobucci
    • F21V5/04B29D11/00
    • B29D11/00365B29D11/00807G02B3/0006
    • A method of manufacturing a micro-lens array and light-emitting device, comprising forming a first structured polymer film with close packed surface cavities having a mean diameter of less than 20 micrometers and a relatively lower surface energy surface, forming a transparent second structured film with an array of microlenses formed thereon corresponding to the cavities of the first structured film, wherein the second structured film comprises a relatively high surface energy material and has a refractive index greater than 1.45, and wherein the microlenses are randomly distributed, separating the second structured film with the micro-lens array from the first structured polymer film, and attaching the second structured film to a transparent substrate or cover of a light-emitting device through which light is emitted. Use of microlens arrays formed from relatively high surface energy materials enables matching refractive index of microlens array to that of light-emitting devices substrate or cover through which light is emitted and relatively high elastic modulus providing good scratch resistance.
    • 一种制造微透镜阵列和发光器件的方法,包括:形成具有平均直径小于20微米的密堆积表面腔的第一结构化聚合物膜和相对较低的表面能表面,形成透明的第二结构膜 其上形成有对应于第一结构化膜的空腔的微透镜阵列,其中第二结构化膜包括相对高的表面能材料并具有大于1.45的折射率,并且其中微透镜是随机分布的,将第二结构化膜 具有来自第一结构化聚合物膜的微透镜阵列的膜,以及将第二结构膜附着到发光装置的透明基板或盖。 使用由相对高的表面能材料形成的微透镜阵列使微透镜阵列的折射率能够匹配发光器件的发光器件衬底或覆盖层,通过该发光器件衬底或盖发射光,并且相对较高的弹性模量提供良好的耐刮擦性。
    • 5. 发明申请
    • LIGHT EMITTING DEVICE WITH MICROLENS ARRAY
    • 具有微阵列的发光装置
    • US20100224313A1
    • 2010-09-09
    • US12785091
    • 2010-05-21
    • Krishnan ChariCharles W. LanderLiang-Sheng LiaoPaul D. Yacobucci
    • Krishnan ChariCharles W. LanderLiang-Sheng LiaoPaul D. Yacobucci
    • B32B37/16
    • B29D11/00365B29D11/00807G02B3/0006
    • A method of manufacturing a micro-lens array and light-emitting device, comprising forming a first structured polymer film with close packed surface cavities having a mean diameter of less than 20 micrometers and a relatively lower surface energy surface, forming a transparent second structured film with an array of microlenses formed thereon corresponding to the cavities of the first structured film, wherein the second structured film comprises a relatively high surface energy material and has a refractive index greater than 1.45, and wherein the microlenses are randomly distributed, separating the second structured film with the micro-lens array from the first structured polymer film, and attaching the second structured film to a transparent substrate or cover of a light-emitting device through which light is emitted. Use of microlens arrays formed from relatively high surface energy materials enables matching refractive index of microlens array to that of light-emitting devices substrate or cover through which light is emitted and relatively high elastic modulus providing good scratch resistance.
    • 一种制造微透镜阵列和发光器件的方法,包括:形成具有平均直径小于20微米的密堆积表面腔的第一结构化聚合物膜和相对较低的表面能表面,形成透明的第二结构膜 其上形成有对应于第一结构化膜的空腔的微透镜阵列,其中第二结构化膜包括相对高的表面能材料并具有大于1.45的折射率,并且其中微透镜是随机分布的,将第二结构化膜 具有来自第一结构化聚合物膜的微透镜阵列的膜,以及将第二结构膜附着到发光装置的透明基板或盖。 使用由相对高的表面能材料形成的微透镜阵列使微透镜阵列的折射率能够匹配发光器件的发光器件衬底或覆盖层,通过该发光器件衬底或盖发射光,并且相对较高的弹性模量提供良好的耐刮擦性。
    • 6. 发明授权
    • Light emitting device with microlens array
    • 具有微透镜阵列的发光器件
    • US07931515B2
    • 2011-04-26
    • US12785091
    • 2010-05-21
    • Krishnan ChariCharles W. LanderLiang-Sheng LiaoPaul D. Yacobucci
    • Krishnan ChariCharles W. LanderLiang-Sheng LiaoPaul D. Yacobucci
    • H01J9/00H01J9/02
    • B29D11/00365B29D11/00807G02B3/0006
    • A method of manufacturing a micro-lens array and light-emitting device, comprising forming a first structured polymer film with close packed surface cavities having a mean diameter of less than 20 micrometers and a relatively lower surface energy surface, forming a transparent second structured film with an array of microlenses formed thereon corresponding to the cavities of the first structured film, wherein the second structured film comprises a relatively high surface energy material and has a refractive index greater than 1.45, and wherein the microlenses are randomly distributed, separating the second structured film with the micro-lens array from the first structured polymer film, and attaching the second structured film to a transparent substrate or cover of a light-emitting device through which light is emitted. Use of microlens arrays formed from relatively high surface energy materials enables matching refractive index of microlens array to that of light-emitting devices substrate or cover through which light is emitted and relatively high elastic modulus providing good scratch resistance.
    • 一种制造微透镜阵列和发光器件的方法,包括:形成具有平均直径小于20微米的密堆积表面腔的第一结构化聚合物膜和相对较低的表面能表面,形成透明的第二结构膜 其上形成有对应于第一结构化膜的空腔的微透镜阵列,其中第二结构化膜包括相对高的表面能材料并具有大于1.45的折射率,并且其中微透镜是随机分布的,将第二结构化膜 具有来自第一结构化聚合物膜的微透镜阵列的膜,以及将第二结构膜附着到发光装置的透明基板或盖。 使用由相对高的表面能材料形成的微透镜阵列使微透镜阵列的折射率能够匹配发光器件的发光器件衬底或覆盖层,通过该发光器件衬底或盖发射光,并且相对较高的弹性模量提供良好的耐刮擦性。
    • 7. 发明授权
    • Light emitting device with microlens array
    • 具有微透镜阵列的发光器件
    • US07777416B2
    • 2010-08-17
    • US11763264
    • 2007-06-14
    • Krishnan ChariCharles W. LanderLiang-Sheng LiaoPaul D. Yacobucci
    • Krishnan ChariCharles W. LanderLiang-Sheng LiaoPaul D. Yacobucci
    • H01J1/62
    • B29D11/00365B29D11/00807G02B3/0006
    • A method of manufacturing a micro-lens array and light-emitting device, including forming a first structured polymer film with close packed surface cavities having a mean diameter of less than 20 micrometers and a relatively lower surface energy surface, forming a transparent second structured film with an array of microlenses formed thereon corresponding to the cavities of the first structured film, wherein the second structured film includes a relatively high surface energy material and has a refractive index greater than 1.45, and wherein the microlenses are randomly distributed, separating the second structured film with the micro-lens array from the first structured polymer film, and attaching the second structured film to a transparent substrate or cover of a light-emitting device through which light is emitted. Use of microlens arrays formed from relatively high surface energy materials enables matching refractive index of microlens array to that of light-emitting devices substrate or cover through which light is emitted and relatively high elastic modulus providing good scratch resistance.
    • 一种制造微透镜阵列和发光器件的方法,包括形成具有平均直径小于20微米的紧密堆积表面腔的第一结构聚合物膜和相对较低的表面能表面,形成透明的第二结构膜 其上形成有对应于第一结构化膜的空腔的微透镜阵列,其中第二结构膜包括相对高的表面能材料并具有大于1.45的折射率,并且其中微透镜是随机分布的,将第二结构化膜 具有来自第一结构化聚合物膜的微透镜阵列的膜,以及将第二结构膜附着到发光装置的透明基板或盖。 使用由相对高的表面能材料形成的微透镜阵列使微透镜阵列的折射率能够匹配发光器件的发光器件衬底或覆盖层,通过该发光器件衬底或盖发射光,并且相对较高的弹性模量提供良好的耐刮擦性。