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    • 2. 发明授权
    • Frame embedded in a polymeric encapsulant
    • 框架嵌入聚合物密封剂
    • US6034333A
    • 2000-03-07
    • US975720
    • 1997-11-21
    • Andrew F. SkiporDaniel Roman GamotaChao-Pin YehKarl W. WyattWen Xu Zhou
    • Andrew F. SkiporDaniel Roman GamotaChao-Pin YehKarl W. WyattWen Xu Zhou
    • H01L21/56H01L23/00H05K1/16
    • H01L23/562H01L21/563H01L2224/05568H01L2224/05573H01L2224/056H01L2224/16H01L2224/73203H01L2924/01322Y10T29/49144
    • A microelectronic assembly (10) includes an integrated circuit die (12) that is mounted to a printed circuit board (14). The integrated circuit die (12) overlies the printed circuit board (14) and includes an active face (26) that faces the printed circuit board (14) and is spaced apart therefrom by a gap (30). A plurality of solder bump interconnections (32) extend across the gap (30) and connect a plurality of board bond pads (22) with a plurality of die bond pads (28). A polymeric precursor (13) is dispensed onto the printed circuit board (14) about the integrated circuit die (12) and is curable to form a polymeric encapsulant (16). The polymeric precursor (13) is drawn into the gap (30) and forms a fillet (34) overlying the printed circuit board (14). A frame (18) is embedded in the fillet (34), not in direct contact with the board (14), and the polymeric precursor (13) is heated to cure the polymeric precursor (13) to form a polymeric encapsulant (16). The frame (18) is affixed to the printed circuit board (14) within the polymeric encapsulant (16) to provide increased mechanical strength for the microelectronic assembly (10).
    • 微电子组件(10)包括安装到印刷电路板(14)的集成电路管芯(12)。 集成电路管芯(12)覆盖印刷电路板(14),并且包括面向印刷电路板(14)的有效面(26),并通过间隙(30)与其间隔开。 多个焊料凸点互连(32)跨过间隙(30)延伸并且将多个板接合焊盘(22)与多个管芯接合焊盘(28)连接。 聚合物前体(13)围绕集成电路管芯(12)分配到印刷电路板(14)上并且可固化以形成聚合密封剂(16)。 聚合物前体(13)被拉入间隙(30)并形成覆盖印刷电路板(14)的圆角(34)。 框架(18)嵌入在圆角(34)中,不与板(14)直接接触,并且聚合物前体(13)被加热以固化聚合物前体(13)以形成聚合物密封剂(16) 。 框架(18)固定在聚合物密封剂(16)内的印刷电路板(14)上,以为微电子组件(10)提供增加的机械强度。
    • 4. 发明申请
    • INDUCTIVELY EXCITED QUANTUM DOT LIGHT EMITTING DEVICE
    • 感应量子灯发光装置
    • US20090001403A1
    • 2009-01-01
    • US11770939
    • 2007-06-29
    • Andrew F. SkiporRick Latella
    • Andrew F. SkiporRick Latella
    • H01L33/00G21G4/00
    • H05B33/10
    • A method and apparatus is provided for activating a layer (208, 308, 408) of free standing quantum dots. The apparatus comprises a first coil (216, 316, 426) disposed contiguous to a light emitting device (200, 300, 400, 612) including the free standing quantum dots. An alternating current is supplied to the coil (216, 316, 426) for generating an electric field, and the plurality of free standing quantum dots are subjected to the electric field thereby causing photons to be emitted therefrom. A structure (214, 328), such as a housing (620) of a portable electronic device (610, 710) may be positioned either, when opaque, between the light emitting device (300, 400) and the coil (316, 426), or, when transparent, on a side of the light emitting device (200) opposed to the coil (216).
    • 提供了一种激活自由站立量子点的层(208,308,408)的方法和装置。 该装置包括与包括自由置换量子点的发光器件(200,300,4400,612)相邻布置的第一线圈(216,316,426)。 向线圈(216,316,426)提供交流电以产生电场,并且使多个自由量子点受到电场,从而使光子从其发射。 诸如便携式电子设备(610,710)的壳体(620)的结构(214,328)可以在不透明的位置处于发光器件(300,400)和线圈(316,426)之间 ),或者当透明时,在与线圈(216)相对的发光器件(200)的一侧上。
    • 5. 发明申请
    • APPARATUS AND METHOD FOR MODULATING PHOTON OUTPUT OF A QUANTUM DOT LIGHT EMITTING DEVICE
    • 用于调制量子点光发射装置的光电输出的装置和方法
    • US20090001385A1
    • 2009-01-01
    • US11769040
    • 2007-06-27
    • Andrew F. SkiporJerzy Wielgus
    • Andrew F. SkiporJerzy Wielgus
    • H01L33/00H05B37/02
    • H01L33/502B82Y20/00G02B26/02H01L27/3209H01L33/00H01L33/0004H01L33/14H01L51/5012H01L51/52H01L2933/0083Y10S977/774Y10S977/95
    • An apparatus is provided for modulating the photon output of a plurality of free standing quantum dots. The apparatus comprises a first electron injection layer (210, 310, 410) disposed between a first electrode (212, 312, 412) and a layer (208, 308, 408) of the plurality of free standing quantum dots. A hole transport layer (206, 306, 406) is disposed between the layer (208, 308, 408) of the plurality of quantum dots and a second electrode (204, 304, 404). A light source (224, 324, 424) is disposed so as to apply light to the layer (208, 308, 408) of the plurality of free standing quantum dots. The photon output of the layer (208, 308, 408) of the plurality of free standing quantum dots is modulated by applying a voltage to the first and second electrodes (212, 312, 412, 204, 304, 404). Electrons excited to a higher energy state within layer (208, 308, 408) of the free standing quantum dots by the light source (224, 324, 424) are prevented from returning to a lower state by electrons from the electric field of the applied voltage, and therefore the free standing quantum dots are prevented from emitting a photon. The voltage source (216, 316, 416) may be modulated to vary the photon output.
    • 提供了一种用于调制多个自由量子点的光子输出的装置。 该装置包括设置在多个自由量子点的第一电极(212,312,412)和层(208,308,408)之间的第一电子注入层(210,310,410)。 空穴传输层(206,306,406)设置在多个量子点的层(208,308,408)和第二电极(204,304,404)之间。 光源(224,324,424)被设置成对多个自由量子点的层(208,308,408)施加光。 通过向第一和第二电极(212,312,412,204,304,404)施加电压来调制多个自由量子点的层(208,308,408)的光子输出。 通过光源(224,324,424)自由置换的量子点的层(208,308,408)中激发到较高能量状态的电子被防止从被施加的电场的电场的电子返回到较低的状态 电压,因此防止自由量子点发射光子。 电压源(216,316,416)可被调制以改变光子输出。
    • 6. 发明授权
    • Assembly having a frame embedded in a polymeric encapsulant and method
for forming same
    • 具有嵌入聚合物密封剂中的框架的组件及其形成方法
    • US5720100A
    • 1998-02-24
    • US581695
    • 1995-12-29
    • Andrew F. SkiporDaniel Roman GamotaChao-Pin YehKarl W. WyattWen Xu Zhou
    • Andrew F. SkiporDaniel Roman GamotaChao-Pin YehKarl W. WyattWen Xu Zhou
    • H01L21/56H01L23/00H05K3/34
    • H01L23/562H01L21/563H01L2224/05568H01L2224/05573H01L2224/056H01L2224/16H01L2224/73203H01L2924/01322Y10T29/49144
    • A microelectronic assembly (10) includes an integrated circuit die (12) that is mounted to a printed circuit board (14). The integrated circuit die (12) overlies the printed circuit board (14) and includes an active face (26) that faces the printed circuit board (14) and is spaced apart therefrom by a gap (30). A plurality of solder bump interconnections (32) extend across the gap (30) and connect a plurality of board bond pads (22) with a plurality of die bond pads (28). A polymeric precursor (13) is dispensed onto the printed circuit board (14) about the integrated circuit die (12) and is curable to form a polymeric encapsulant (16). The polymeric precursor (13) is drawn into the gap (30) and forms a fillet (34) overlying the printed circuit board (14). A frame (18) is embedded in the fillet (34) and the polymeric precursor (13) is heated to cure the polymeric precursor (13) to form a polymeric encapsulant (16). The frame (18) is affixed to the printed circuit board (14) within the polymeric encapsulant (16) to provide increased mechanical strength for the microelectronic assembly (10).
    • 微电子组件(10)包括安装到印刷电路板(14)的集成电路管芯(12)。 集成电路管芯(12)覆盖印刷电路板(14),并且包括面向印刷电路板(14)的有效面(26),并通过间隙(30)与其间隔开。 多个焊料凸点互连(32)跨过间隙(30)延伸并且将多个板接合焊盘(22)与多个管芯接合焊盘(28)连接。 聚合物前体(13)围绕集成电路管芯(12)分配到印刷电路板(14)上并且可固化以形成聚合密封剂(16)。 聚合物前体(13)被拉入间隙(30)并形成覆盖印刷电路板(14)的圆角(34)。 将框架(18)嵌入在圆角(34)中,并且加热聚合物前体(13)以固化聚合物前体(13)以形成聚合物密封剂(16)。 框架(18)固定在聚合物密封剂(16)内的印刷电路板(14)上,以为微电子组件(10)提供增加的机械强度。
    • 7. 发明授权
    • Portable electronic device having an electro wetting display illuminated by quantum dots
    • 具有由量子点照射的电润湿显示器的便携式电子设备
    • US08264777B2
    • 2012-09-11
    • US11768363
    • 2007-06-26
    • Andrew F. SkiporMarc K. ChasonWilliam F. HoffmanKrishna KalyanasundaramGeorge T. Valliath
    • Andrew F. SkiporMarc K. ChasonWilliam F. HoffmanKrishna KalyanasundaramGeorge T. Valliath
    • G02B1/06G02B3/12
    • G02B26/005
    • A portable electronic device (510) having a self illuminating display (200, 202, 204, 206, 300, 512) that reduces both the thickness of known displays and processing steps in the fabrication thereof is provided. The portable electronic device (510) includes an electrowetting display (200, 202, 204, 206, 300, 512) having a plurality of transparent layers defining a cavity (219). A combination of a first fluid (218, 236) and a second fluid (210, 234, 244, 254) are positioned in the cavity. First circuitry (224) is configured to be coupled to a first voltage source (222) for selectively repositioning the second fluid (210, 234, 244, 254) in relation to the first fluid (218, 236). A plurality of quantum dots (208, 360) is positioned within the second fluid (210, 234, 244, 254), and a light source (209, 309) is disposed contiguous to the plurality of layers. Second circuitry (228) is configured to be coupled to a second voltage source (226) for selectively causing the light source (209, 309) to emit photons to strike the plurality of quantum dots (208, 360). Additional similar stacks of layers (204, 206) may be added to provide a color display.
    • 本发明提供了一种便携式电子设备(510),其具有减少已知显示器的厚度和制造其中的处理步骤的自发光显示器(200,202,204,206,300,512)。 便携式电子设备(510)包括具有限定空腔(219)的多个透明层的电润湿显示器(200,202,204,206,300,512)。 第一流体(218,236)和第二流体(210,234,244,254)的组合被定位在空腔中。 第一电路(224)被配置为耦合到第一电压源(222),用于相对于第一流体(218,236)选择性地重新定位第二流体(210,234,244,254)。 多个量子点(208,360)定位在第二流体(210,234,244,254)内,并且光源(209,309)设置成与多个层相邻。 第二电路(228)被配置为耦合到第二电压源(226),用于选择性地使光源(209,309)发射光子以撞击多个量子点(208,360)。 可以添加附加类似的层叠层(204,206)以提供彩色显示。
    • 8. 发明申请
    • METHOD AND APPARATUS FOR SELECTIVELY PATTERNING FREE STANDING QUANTUM DOT (FSQDT) POLYMER COMPOSITES
    • 用于选择自由定型量子点(FSQDT)聚合物复合材料的方法和装置
    • US20090017268A1
    • 2009-01-15
    • US11776087
    • 2007-07-11
    • Andrew F. SkiporSteven M. Scheifers
    • Andrew F. SkiporSteven M. Scheifers
    • B32B3/10G03F7/20C08F2/50
    • G03F7/038Y10T428/24802
    • Free standing quantum do (FSQDT) polymer composites and a method and apparatus for patterning the FSQDT polymer composites is provided. The method for patterning the FSQDT polymer composites includes creating a solution including FSQDTs where each of the FSQDTs has a plurality of reactive ligands chemically attached thereto. The method further includes providing a substrate, forming a coated substrate by coating a surface of the substrate with a layer of the solution, and providing a photo mask having a predetermined pattern thereon transparent to a predetermined radiation over the coated substrate. Finally, the method includes exposing a portion of the coated substrate to the predetermined radiation passing through the mask to pattern a polymer matrix in the predetermined pattern while adhering the FSQDTs to the polymer matrix to form the FSQDT polymer composite.
    • 提供了自由立体量子(FSQDT)聚合物复合材料和用于图案化FSQDT聚合物复合材料的方法和设备。 图案化FSQDT聚合物复合材料的方法包括产生包括FSQDT的溶液,其中每个FSQDT具有与其化学连接的多个反应性配体。 该方法还包括提供基底,通过用溶液层涂覆基底的表面形成涂覆的基底,并且提供具有预定图案的光掩模,其上涂覆的基底上的预定辐射透明。 最后,该方法包括将涂覆的基底的一部分暴露于通过掩模的预定辐射,以将FSQDTs粘附到聚合物基质上以形成FSQDT聚合物复合材料,从而以预定图案形成聚合物基质。
    • 10. 发明授权
    • Apparatus and method for modulating photon output of a quantum dot light emitting device
    • 用于调制量子点发光器件的光子输出的装置和方法
    • US09136498B2
    • 2015-09-15
    • US11769040
    • 2007-06-27
    • Andrew F. SkiporJerzy Wielgus
    • Andrew F. SkiporJerzy Wielgus
    • H01L27/15H01L51/52H01L33/00G02B26/02B82Y20/00H01L51/50H01L27/32
    • H01L33/502B82Y20/00G02B26/02H01L27/3209H01L33/00H01L33/0004H01L33/14H01L51/5012H01L51/52H01L2933/0083Y10S977/774Y10S977/95
    • An apparatus is provided for modulating the photon output of a plurality of free standing quantum dots. The apparatus comprises a first electron injection layer (210, 310, 410) disposed between a first electrode (212, 312, 412) and a layer (208, 308, 408) of the plurality of free standing quantum dots. A hole transport layer (206, 306, 406) is disposed between the layer (208, 308, 408) of the plurality of quantum dots and a second electrode (204, 304, 404). A light source (224, 324, 424) is disposed so as to apply light to the layer (208, 308, 408) of the plurality of free standing quantum dots. The photon output of the layer (208, 308, 408) of the plurality of free standing quantum dots is modulated by applying a voltage to the first and second electrodes (212, 312, 412, 204, 304, 404). Electrons excited to a higher energy state within layer (208, 308, 408) of the free standing quantum dots by the light source (224, 324, 424) are prevented from returning to a lower state by electrons from the electric field of the applied voltage, and therefore the free standing quantum dots are prevented from emitting a photon. The voltage source (216, 316, 416) may be modulated to vary the photon output.
    • 提供了一种用于调制多个自由量子点的光子输出的装置。 该装置包括设置在多个自由量子点的第一电极(212,312,412)和层(208,308,408)之间的第一电子注入层(210,310,410)。 空穴传输层(206,306,406)设置在多个量子点的层(208,308,408)和第二电极(204,304,404)之间。 光源(224,324,424)被设置成对多个自由量子点的层(208,308,408)施加光。 通过向第一和第二电极(212,312,412,204,304,404)施加电压来调制多个自由量子点的层(208,308,408)的光子输出。 通过光源(224,324,424)自由置换的量子点的层(208,308,408)中激发到较高能量状态的电子被防止从被施加的电场的电场的电子返回到较低的状态 电压,因此防止自由量子点发射光子。 电压源(216,316,416)可被调制以改变光子输出。