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    • 7. 发明申请
    • Self-releasing spring structures and methods
    • 自释弹簧结构及方法
    • US20060076693A1
    • 2006-04-13
    • US10959180
    • 2004-10-07
    • Thomas HantschelSven KosgalwiesDavid ForkEugene Chow
    • Thomas HantschelSven KosgalwiesDavid ForkEugene Chow
    • H01L23/52
    • G01R1/06716G01R3/00Y10T29/49609
    • According to various exemplary embodiments, a spring device that includes a substrate, a self-releasing layer provided over the substrate and a stressed-metal layer provided over the self-releasing layer is disclosed, wherein an amount of stress inside the stressed-metal layer results in a peeling force that is higher than an adhesion force between the self-releasing layer and the stressed-metal layer. Moreover, a method of manufacturing a spring device, according to various exemplary embodiments, includes providing a substrate, providing a self-releasing layer over the substrate and providing a stressed-metal layer over the self-releasing layer wherein an amount of stress inside the stressed-metal layer results in a peeling force that is higher than an adhesion force between the self-releasing layer and the stressed-metal layer is also disclosed in this invention.
    • 根据各种示例性实施例,公开了一种弹簧装置,其包括基板,设置在基板上的自放电层和设置在自放电层上的应力金属层,其中应力金属层内部的应力量 导致剥离力高于自释放层和应力金属层之间的粘附力。 此外,根据各种示例性实施例的制造弹簧装置的方法包括提供衬底,在衬底上提供自释放层,并在自释放层上方提供应力金属层,其中, 在本发明中也公开了应力金属层导致比自发层和应力金属层之间的粘附力高的剥离力。
    • 10. 发明申请
    • Solar cell production using non-contact patterning and direct-write metallization
    • 使用非接触式图案化和直接写入金属化的太阳能电池生产
    • US20070169806A1
    • 2007-07-26
    • US11336714
    • 2006-01-20
    • David ForkPatrick MaedaAna AriasDouglas Curry
    • David ForkPatrick MaedaAna AriasDouglas Curry
    • H01L31/00
    • H01L31/1876H01L31/022425Y02E10/50Y02P70/521
    • Photovoltaic devices (i.e., solar cells) are formed using non-contact patterning apparatus (e.g., a laser-based patterning systems) to define contact openings through a passivation layer, and direct-write metallization apparatus (e.g., an inkjet-type printing or extrusion-type deposition apparatus) to deposit metallization into the contact openings and over the passivation surface. The metallization includes two portions: a contact (e.g., silicide-producing) material is deposited into the contact openings, then a highly conductive metal is deposited on the contact material and between the contact holes. The device wafers are transported between the patterning and metallization apparatus in hard tooled registration using a conveyor mechanism. Optional sensors are utilized to align the patterning and metallization apparatus to the contact openings. An extrusion-type apparatus is used to form grid lines having a high aspect central metal line that is supported on each side by a transparent material.
    • 使用非接触式图案形成装置(例如,基于激光的图案形成系统)来形成光电装置(即,太阳能电池),以限定通过钝化层的接触开口,以及直接写入金属化装置(例如喷墨型印刷或 挤出型沉积设备)以将金属化沉积到接触开口中并在钝化表面上。 金属化包括两部分:将接触(例如,产生硅化物)的材料沉积到接触开口中,然后在接触材料上和接触孔之间沉积高导电性金属。 使用传送机构在硬模具配准中,在图案化和金属化装置之间输送装置晶片。 使用可选的传感器来将图案化和金属化装置对准接触开口。 使用挤出型装置形成具有高方位中心金属线的网格线,每条边由透明材料支撑。