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    • 61. 发明授权
    • Method for forming an electrical connection
    • 电连接方法
    • US07908743B2
    • 2011-03-22
    • US12430807
    • 2009-04-27
    • Zhiyong LiChuck LuuGopalakrishna B. PrabhuDanny Cam Toan LuGarry KwongDavid Tanner
    • Zhiyong LiChuck LuuGopalakrishna B. PrabhuDanny Cam Toan LuGarry KwongDavid Tanner
    • H05K3/36
    • H05K3/321H01L21/67138H01L21/67712H01L21/67727H01L21/67754H01L21/6776H01L31/0201H01L31/046H01L31/048H01L31/0512H01L31/188H05K2203/0278Y02E10/50Y10T29/49117Y10T29/49126Y10T29/4913Y10T29/49155
    • Embodiments of the present invention provide a method of forming an electrical connection on a device. In one embodiment, the electrical connection is attached to the device via an adhesive having electrically conductive particles disposed therein. In one embodiment, the adhesive is cured while applying pressure such that the conductive particles align, have a reduced particle-to-particle spacing, or come into contact with each other to provide a more directly conductive (less resistive) path between the electrical connection and the device. In one embodiment of the present invention, a method for forming an electrical lead on a partially formed solar cell during formation of the solar cell device is provided. The method comprises placing a side-buss wire onto a pattern of electrically conductive adhesive disposed on a back contact layer of a solar cell device substrate, laminating the side-buss wire and electrically conductive adhesive between the solar cell device substrate and a back glass substrate to form a composite solar cell structure, and curing the electrically conductive adhesive while applying pressure and heat to the composite solar cell structure.
    • 本发明的实施例提供了一种在设备上形成电连接的方法。 在一个实施例中,电连接通过其中布置有导电颗粒的粘合剂附接到装置。 在一个实施方案中,粘合剂在施加压力下固化,使得导电颗粒对准,具有减小的颗粒间距或彼此接触以在电连接之间提供更直接的导电(较小电阻)的路径 和设备。 在本发明的一个实施例中,提供了在形成太阳能电池器件期间在部分形成的太阳能电池上形成电引线的方法。 该方法包括将侧面布线布置在设置在太阳能电池器件基板的背接触层上的导电粘合剂图案上,在侧太阳能电池器件基板和背玻璃基板之间层叠侧母线和导电粘合剂 以形成复合太阳能电池结构,并且在对复合太阳能电池结构施加压力和加热的同时固化导电粘合剂。
    • 64. 发明授权
    • Raman and hyper-Raman excitation using superlensing
    • 拉曼和超拉曼激发使用超透镜
    • US07474397B2
    • 2009-01-06
    • US11413377
    • 2006-04-28
    • Shih-Yuan WangZhiyong Li
    • Shih-Yuan WangZhiyong Li
    • G01J3/44
    • G01J3/02G01J3/0208G01N21/658
    • Raman-enhancing structures include a layer of dielectric material, a superlens configured to focus electromagnetic radiation having a wavelength greater than about 100 nanometers to a two-dimensional focal area having linear dimensions less than about 100 nanometers on a surface of the layer of dielectric material, and at least two nanoparticles comprising a Raman-enhancing material disposed proximate the focal area. Additional Raman-enhancing structures include a layer of dielectric material, a layer of conductive material, and at least two nanoparticles comprising a Raman-enhancing material disposed on a second, opposite surface of the layer of dielectric material. The layer of conductive material has a plurality of apertures therethrough that are arranged in a two-dimensional array. Methods for conducting Raman spectroscopy are performed using such structures and systems.
    • 拉曼增强结构包括介电材料层,配置成将具有大于约100纳米的波长的电磁辐射聚焦到具有小于约100纳米的线性尺寸的二维聚焦区域的超薄膜在电介质材料层的表面上 以及至少两个纳米颗粒,其包含靠近焦点区域设置的拉曼增强材料。 附加的拉曼增强结构包括电介质材料层,导电材料层,以及至少两个包含拉曼增强材料的纳米颗粒,该拉曼增强材料设置在电介质材料层的第二相对表面上。 导电材料层具有以二维阵列布置的穿过其中的多个孔。 使用这种结构和系统进行拉曼光谱的方法。
    • 66. 发明授权
    • Photonic crystal Raman sensors and methods including the same
    • 光子晶体拉曼传感器和方法包括相同
    • US07466407B2
    • 2008-12-16
    • US11413877
    • 2006-04-27
    • Sean M. SpillaneRaymond G. BeausoleilZhiyong LiDuncan Stewart
    • Sean M. SpillaneRaymond G. BeausoleilZhiyong LiDuncan Stewart
    • G01J3/44
    • G01J3/44G01N21/658
    • Raman-enhancing structures include a photonic crystal having a resonant cavity and at least one waveguide coupled to the resonant cavity. A nanostructure comprising a Raman-enhancing material is disposed proximate the resonant cavity of the photonic crystal. Raman-enhancing structures include a microdisk resonator, at least one waveguide coupled to the microdisk resonator, and a nanostructure comprising a Raman-enhancing material disposed proximate the microdisk resonator. Methods for performing Raman spectroscopy include generating radiation, guiding the radiation through a waveguide to a resonant cavity in a photonic crystal or a microdisk resonator, resonating the radiation in the resonant cavity or microdisk resonator, providing an analyte proximate the resonant cavity or microdisk resonator, subjecting the analyte to the resonating radiation, and detecting Raman scattered radiation.
    • 拉曼增强结构包括具有谐振腔和耦合到谐振腔的至少一个波导的光子晶体。 包含拉曼增强材料的纳米结构设置在光子晶体的谐振腔附近。 拉曼增强结构包括微盘谐振器,耦合到微盘谐振器的至少一个波导和包括靠近微盘谐振器设置的拉曼增强材料的纳米结构。 用于执行拉曼光谱的方法包括产生辐射,将辐射通过波导引导到光子晶体或微盘谐振器中的谐振腔,谐振谐振腔或微盘谐振器中的辐射,提供靠近谐振腔或微盘谐振器的分析物, 对分析物进行共振辐射,并检测拉曼散射辐射。
    • 67. 发明授权
    • Systems and methods for detection of Raman scattered photons
    • 用于检测拉曼散射光子的系统和方法
    • US07405822B2
    • 2008-07-29
    • US11584020
    • 2006-10-20
    • Zhiyong LiWei WuShih-Yuan Wang
    • Zhiyong LiWei WuShih-Yuan Wang
    • G01J3/44G01N21/65
    • G01J3/44G01N21/658
    • Raman spectroscopy systems include an analyte, a radiation source configured to emit incident radiation having a wavelength, and a detector that is capable of detecting only radiation having wavelengths within a detectable range that includes at least one wavelength corresponding to hyper Raman scattered radiation scattered by the analyte. The wavelength of the incident radiation is outside the detectable range. In particular systems, all wavelengths of radiation that are scattered in the direction of the detector impinge on the detector. Raman spectroscopy methods include providing an analyte and irradiating the analyte with incident radiation having a wavelength, providing a detector capable of detecting only wavelengths of radiation within a detectable range that does not include the wavelength of the incident radiation, and detecting Raman scattered radiation scattered by the analyte. A continuous path free of radiation filters may be provided between the analyte and the detector.
    • 拉曼光谱系统包括分析物,被配置为发射具有波长的入射辐射的辐射源,以及检测器,其能够仅检测波长在可检测范围内的辐射,所述波长包括对应于由所述波长散射的超拉曼散射辐射的至少一个波长 分析物。 入射辐射的波长在可检测范围之外。 在特定系统中,在检测器的方向上散射的所有辐射波长都照射在检测器上。 拉曼光谱方法包括提供分析物并用具有波长的入射辐射照射分析物,提供检测器,该检测器仅能够检测不包括入射辐射波长的可检测范围内的辐射波长,并且检测散射的拉曼散射辐射 分析物。 可以在分析物和检测器之间提供不含辐射过滤器的连续路径。