SOLAR CELL STRUCTURE WITH LOCALIZED DOPING IN CAP LAYER
    1.
    发明申请
    SOLAR CELL STRUCTURE WITH LOCALIZED DOPING IN CAP LAYER 有权
    太阳能电池结构在CAP层中具有局部放电

    公开(公告)号:US20080092943A1

    公开(公告)日:2008-04-24

    申请号:US11550881

    申请日:2006-10-19

    IPC分类号: H01L31/00

    摘要: A solar cell includes a semiconductor substrate and a sequence of semiconductor layers disposed over the substrate. The sequence of semiconductor layers includes a semiconductor window layer. The solar cell also includes a semiconductor silicon-containing cap layer over the window layer. The cap layer is spatially separated from the window layer by a semiconductor barrier layer that either includes no silicon or has a silicon concentration that is significantly lower than the silicon concentration of the cap layer.

    摘要翻译: 太阳能电池包括半导体衬底和设置在衬底上的半导体层序列。 半导体层的序列包括半导体窗口层。 太阳能电池还包括窗口层上的半导体含硅覆盖层。 盖层通过半导体阻挡层在空间上与窗口层分开,半导体阻挡层不包括硅或具有明显低于覆盖层的硅浓度的硅浓度。

    Non-Isoelectronic Surfactant Assisted Growth In Inverted Metamorphic Multijunction Solar Cells
    2.
    发明申请
    Non-Isoelectronic Surfactant Assisted Growth In Inverted Metamorphic Multijunction Solar Cells 审中-公开
    非等电子表面活性剂辅助生长反相变质多功能太阳能电池

    公开(公告)号:US20090229658A1

    公开(公告)日:2009-09-17

    申请号:US12047842

    申请日:2008-03-13

    IPC分类号: H01L31/00 H01L31/18

    摘要: A method of forming a multifunction solar cell including an upper subcell, a middle subcell, and a lower subcell, the method including: providing a substrate for the epitaxial growth of semiconductor material; forming a first solar subcell on the substrate having a first band gap; forming a second solar subcell over the first solar subcell having a second band gap smaller than the first band gap; forming a graded interlayer over the second subcell using a non-isoelectronic surfactant such as selenium or tellurium, the graded interlayer having a third band gap greater than the second band gap; and forming a third solar subcell over the graded interlayer having a fourth band gap smaller than the second band gap such that the third subcell is lattice mismatched with respect to the second subcell.

    摘要翻译: 一种形成包括上部子电池,中间子电池和下部子电池的多功能太阳能电池的方法,所述方法包括:提供用于半导体材料的外延生长的衬底; 在具有第一带隙的基板上形成第一太阳能子电池; 在所述第一太阳能子电池上形成具有小于所述第一带隙的第二带隙的第二太阳能子电池; 使用诸如硒或碲的非等电子表面活性剂在所述第二子电池上形成分级中间层,所述渐变中间层具有大于所述第二带隙的第三带隙; 以及在所述渐变中间层上形成具有小于所述第二带隙的第四带隙的第三太阳能子电池,使得所述第三子电池相对于所述第二子电池晶格失配。

    INVERTED METAMORPHIC MULTIJUNCTION SOLAR CELL WITH TWO METAMORPHIC LAYERS AND HOMOJUNCTION TOP CELL
    3.
    发明申请
    INVERTED METAMORPHIC MULTIJUNCTION SOLAR CELL WITH TWO METAMORPHIC LAYERS AND HOMOJUNCTION TOP CELL 有权
    具有两个金属层和HOMOJUNCTION顶层电池的反相多晶多晶太阳能电池

    公开(公告)号:US20120211068A1

    公开(公告)日:2012-08-23

    申请号:US13401181

    申请日:2012-02-21

    摘要: A multijunction solar cell including an upper first solar subcell, and the base-emitter junction of the upper first solar subcell being a homojunction; a second solar subcell adjacent to said first solar subcell; a third solar subcell adjacent to said second solar subcell. A first graded interlayer is provided adjacent to said third solar subcell. A fourth solar subcell is provided adjacent to said first graded interlayer, said fourth subcell is lattice mismatched with respect to said third subcell. A second graded interlayer is provided adjacent to said fourth solar subcell; and a lower fifth solar subcell is provided adjacent to said second graded interlayer, said lower fifth subcell is lattice mismatched with respect to said fourth subcell.

    摘要翻译: 一种多结太阳能电池,其包括上部第一太阳能子电池,并且所述上部第一太阳能子电池的基极 - 发射极结为同质结; 与所述第一太阳能子电池相邻的第二太阳能子电池; 与所述第二太阳能子电池相邻的第三太阳能子电池。 与所述第三太阳能子电池相邻地设置有第一梯度中间层。 与所述第一梯度中间层相邻地设置第四太阳能子电池,所述第四子电池相对于所述第三子电池晶格失配。 邻近所述第四太阳能子电池设置第二梯度中间层; 并且与所述第二梯度中间层相邻地设置较低的第五太阳能子电池,所述下部第五子电池相对于所述第四子电池晶格失配。

    Apparatus and Method for Optimizing the Efficiency of Germanium Junctions in Multi-Junction Solar Cells
    6.
    发明申请
    Apparatus and Method for Optimizing the Efficiency of Germanium Junctions in Multi-Junction Solar Cells 有权
    用于优化多结太阳能电池中锗结的效率的装置和方法

    公开(公告)号:US20080149177A1

    公开(公告)日:2008-06-26

    申请号:US12041490

    申请日:2008-03-03

    IPC分类号: H01L31/06 H01L31/0216

    摘要: Apparatus and Method for Optimizing the Efficiency of Germanium Junctions in Multi-Junction Solar Cells. In a preferred embodiment, an indium gallium phosphide (InGaP) nucleation layer is disposed between the germanium (Ge) substrate and the overlying dual-junction epilayers for controlling the diffusion depth of the n-doping in the germanium junction. Specifically, by acting as a diffusion barrier to arsenic (As) contained in the overlying epilayers and as a source of n-type dopant for forming the germanium junction, the nucleation layer enables the growth time and temperature in the epilayer device process to be minimized without compromising the integrity of the dual-junction epilayer structure. This in turn allows the arsenic diffusion into the germanium substrate to be optimally controlled by varying the thickness of the nucleation layer. An active germanium junction formed in accordance with the present invention has a typical diffused junction depth that is ⅕ to ½ of that achievable in prior art devices. Furthermore, triple-junction solar cells incorporating a shallow n-p germanium junction of the present invention can attain 1 sun AMO efficiencies in excess of 26%.

    摘要翻译: 用于优化多结太阳能电池中锗结的效率的装置和方法。 在优选实施例中,铟锗磷(InGaP)成核层设置在锗(Ge)衬底和上覆的双结外延层之间,用于控制锗结中的n掺杂的扩散深度。 具体地说,通过作为包含在上覆外延层中的砷(As)的扩散阻挡层,并且作为用于形成锗结的n型掺杂剂的源,成核层使外延层器件工艺中的生长时间和温度最小化 而不损害双结外延层结构的完整性。 这又允许通过改变成核层的厚度来最佳地控制砷扩散到锗衬底中。 根据本发明形成的活性锗结具有典型的扩散结深度,其为现有技术装置中可实现的1/5至1/2。 此外,结合本发明的浅n-p锗结的三结太阳能电池可以获得超过26%的1个太阳AMO效率。

    Apparatus and method for optimizing the efficiency of germanium junctions in multi-junction solar cells
    7.
    发明授权
    Apparatus and method for optimizing the efficiency of germanium junctions in multi-junction solar cells 有权
    用于优化多结太阳能电池中锗结的效率的装置和方法

    公开(公告)号:US07339109B2

    公开(公告)日:2008-03-04

    申请号:US09885319

    申请日:2001-06-19

    IPC分类号: H01L31/0216 H01L31/0256

    摘要: Apparatus and Method for Optimizing the Efficiency of Germanium Junctions in Multi-Junction Solar Cells. In a preferred embodiment, an indium gallium phosphide (InGaP) nucleation layer is disposed between the germanium (Ge) substrate and the overlying dual-junction epilayers for controlling the diffusion depth of the n-doping in the germanium junction. Specifically, by acting as a diffusion barrier to arsenic (As) contained in the overlying epilayers and as a source of n-type dopant for forming the germanium junction, the nucleation layer enables the growth time and temperature in the epilayer device process to be minimized without compromising the integrity of the dual-junction epilayer structure. This in turn allows the arsenic diffusion into the germanium substrate to be optimally controlled by varying the thickness of the nucleation layer. An active germanium junction formed in accordance with the present invention has a typical diffused junction depth that is ⅕ to ½ of that achievable in prior art devices. Furthermore, triple-junction solar cells incorporating a shallow n-p germanium junction of the present invention can attain 1 sun AM0 efficiencies in excess of 26%.

    摘要翻译: 用于优化多结太阳能电池中锗结的效率的装置和方法。 在优选实施例中,铟锗磷(InGaP)成核层设置在锗(Ge)衬底和上覆的双结外延层之间,用于控制锗结中n掺杂的扩散深度。 具体地说,通过作为包含在上覆外延层中的砷(As)的扩散阻挡层,并且作为用于形成锗结的n型掺杂剂的源,成核层使外延层器件工艺中的生长时间和温度最小化 而不损害双结外延层结构的完整性。 这又允许通过改变成核层的厚度来最佳地控制砷扩散到锗衬底中。 根据本发明形成的活性锗结具有典型的扩散结深度,其为现有技术装置中可实现的1/5至1/2。 此外,结合本发明的浅n-p锗结的三结太阳能电池可以获得超过26%的1个太阳AM0效率。

    INVERTED METAMORPHIC MULTIJUNCTION SOLAR CELLS MOUNTED ON FLEXIBLE SUPPORT WITH BIFACIAL CONTACTS
    9.
    发明申请
    INVERTED METAMORPHIC MULTIJUNCTION SOLAR CELLS MOUNTED ON FLEXIBLE SUPPORT WITH BIFACIAL CONTACTS 审中-公开
    在具有双重联系的灵活支持下安装的反相金属多功能太阳能电池

    公开(公告)号:US20140116500A1

    公开(公告)日:2014-05-01

    申请号:US13831406

    申请日:2013-03-14

    IPC分类号: H01L31/0687 H01L31/18

    摘要: A method of manufacturing a mounted solar cell by providing a first substrate; depositing on the first substrate a sequence of layers of semiconductor material to form a multijunction solar cell using an MOCVD process; depositing a metal electrode layer on its surface of the layers of semiconductor material; attaching a metallic flexible film comprising a nickel-cobalt ferrous alloy material, or a nickel iron alloy material, directly to the surface of the metal electrode layer of the semiconductor solar cell. The first substrate is removed, and an electrical interconnection member is attached to the solar cell.

    摘要翻译: 一种通过提供第一基板制造安装的太阳能电池的方法; 在所述第一衬底上沉积一系列半导体材料,以使用MOCVD工艺形成多结太阳能电池; 在其半导体材料层的表面上沉积金属电极层; 将包含镍 - 钴铁合金材料或镍铁合金材料的金属柔性膜直接附着到半导体太阳能电池的金属电极层的表面。 去除第一衬底,并且电连接构件附接到太阳能电池。