TRANSPARENT SOLAR CELL SYSTEM
    1.
    发明申请
    TRANSPARENT SOLAR CELL SYSTEM 审中-公开
    透明太阳能电池系统

    公开(公告)号:US20080053518A1

    公开(公告)日:2008-03-06

    申请号:US11469918

    申请日:2006-09-05

    IPC分类号: H01L31/00

    摘要: The present invention discloses a transparent solar cell system, which comprises: a light-permeable solar energy conversion device, balance units and conductive wires. The light-permeable solar energy conversion device has a transparent photovoltaic element, which is a PN semiconductor structure formed of two transparent conductive films. The transparent conductive films are respectively made of different oxides. The substrate of the transparent solar cell system is made of a common glass or a common plastic; therefore, the transparent solar cell system of the present invention is lightweight and environment-friendly. Further, the present invention has a simple fabrication process and a low fabrication cost; therefore, the present invention can be extensively applied to the windows and doors of buildings and vehicles and benefits the popularization of solar energy.

    摘要翻译: 本发明公开了一种透明太阳能电池系统,其特征在于,包括:透光太阳能转换装置,平衡单元和导电线。 透光太阳能转换装置具有由两个透明导电膜形成的PN半导体结构的透明光电元件。 透明导电膜分别由不同的氧化物制成。 透明太阳能电池系统的基板由普通玻璃或普通塑料制成; 因此,本发明的透明太阳能电池系统是轻质且环境友好的。 此外,本发明具有简单的制造工艺和低制造成本; 因此,本发明可以广泛地应用于建筑物和车辆的门窗,并且有利于太阳能的普及。

    TCO-based hybrid solar photovoltaic energy conversion apparatus
    2.
    发明授权
    TCO-based hybrid solar photovoltaic energy conversion apparatus 有权
    基于TCO的混合太阳能光伏能量转换装置

    公开(公告)号:US08278549B2

    公开(公告)日:2012-10-02

    申请号:US12285261

    申请日:2008-10-01

    IPC分类号: H01L31/00

    摘要: The invention relates to a solar photovoltaic energy conversion apparatus. The apparatus consists of a substrate, a buffer layer formed on the substrate layer, a first transparent conductive oxide layer formed on the buffer layer, periodic protrusions containing first silicon layers formed on the first transparent conductive oxide layer, second silicon layers formed on the first silicon layers, a second transparent conductive oxide layer covering the first silicon layers, the second silicon layers and the first transparent conductive oxide layer, and an anti-reflective protective layer. The first silicon layer and the second silicon layer are the electrodes with the opposite type of charge carriers. The first transparent conductive layer and the second transparent conductive layer are the electrodes with the opposite type of charge carriers. This TCO-based hybrid solar photovoltaic energy conversion device not only can allow the transmission of visible sunlight but also can enhance the photovoltaic energy.

    摘要翻译: 本发明涉及一种太阳能光伏能量转换装置。 该装置由基板,形成在基板层上的缓冲层,形成在缓冲层上的第一透明导电氧化物层,包含形成在第一透明导电氧化物层上的第一硅层的周期性突起,在第一透明导电氧化物层上形成的第二硅层 硅层,覆盖第一硅层的第二透明导电氧化物层,第二硅层和第一透明导电氧化物层,以及抗反射保护层。 第一硅层和第二硅层是具有相反类型电荷载流子的电极。 第一透明导电层和第二透明导电层是具有相反类型电荷载体的电极。 这种基于TCO的混合太阳能光伏能量转换装置不仅可以允许可见光的透射,而且还可以增强光伏能量。

    TCO-based hybrid solar photovoltaic energy conversion apparatus
    3.
    发明申请
    TCO-based hybrid solar photovoltaic energy conversion apparatus 有权
    基于TCO的混合太阳能光伏能量转换装置

    公开(公告)号:US20090084439A1

    公开(公告)日:2009-04-02

    申请号:US12285261

    申请日:2008-10-01

    IPC分类号: H01L31/00

    摘要: The invention relates to a solar photovoltaic energy conversion apparatus. The apparatus consists of a substrate, a buffer layer formed on the substrate layer, a first transparent conductive oxide layer formed on the buffer layer, periodic protrusions containing first silicon layers formed on the first transparent conductive oxide layer, second silicon layers formed on the first silicon layers, a second transparent conductive oxide layer covering the first silicon layers, the second silicon layers and the first transparent conductive oxide layer, and an anti-reflective protective layer. The first silicon layer and the second silicon layer are the electrodes with the opposite type of charge carriers. The first transparent conductive layer and the second transparent conductive layer are the electrodes with the opposite type of charge carriers. This TCO-based hybrid solar photovoltaic energy conversion device not only can allow the transmission of visible sunlight but also can enhance the photovoltaic energy.

    摘要翻译: 本发明涉及一种太阳能光伏能量转换装置。 该装置由基板,形成在基板层上的缓冲层,形成在缓冲层上的第一透明导电氧化物层,包含形成在第一透明导电氧化物层上的第一硅层的周期性突起,在第一透明导电氧化物层上形成的第二硅层 硅层,覆盖第一硅层的第二透明导电氧化物层,第二硅层和第一透明导电氧化物层,以及抗反射保护层。 第一硅层和第二硅层是具有相反类型电荷载流子的电极。 第一透明导电层和第二透明导电层是具有相反类型电荷载体的电极。 这种基于TCO的混合太阳能光伏能量转换装置不仅可以允许可见光的透射,而且还可以增强光伏能量。

    Method of manufacturing sputtering targets
    4.
    发明申请
    Method of manufacturing sputtering targets 审中-公开
    制造溅射靶的方法

    公开(公告)号:US20080073819A1

    公开(公告)日:2008-03-27

    申请号:US11526076

    申请日:2006-09-25

    IPC分类号: C04B35/64

    摘要: A method of manufacturing sputtering targets comprises the following steps of: 1. wet milling: mixing and grinding indium-tin oxide (ITO) powders, a sintering aid agent, a binder agent, and additive agent by wet milling method; 2. granulation: drying the mixed and grinded mixtures to form granulated ITO powers; 3. shaping: granulated ITO powders into rough-shaped green bodies by using dry pressing; 4. strengthening: strengthening the rough-shaped green bodies by using the cold isostatic pressing; 5. dewaxing: putting rough-shaped green bodies into a high-temperature furnace to remove the additive agent so as to obtain dewaxed green bodies; and 6. sintering: putting the dewaxed green bodies into an controlled atmosphere furnace and sintering the dewaxed green bodies at a gas pressure ranged from 1.1 atm to 1.9 atm. By using the above-mentioned steps, the high-density ITO sputtering targets are obtained.

    摘要翻译: 制造溅射靶的方法包括以下步骤:1.湿磨:通过湿磨法混合研磨氧化铟锡(ITO)粉末,烧结助剂,粘合剂和添加剂; 2.制粒:将混合磨碎的混合物干燥,形成粒状ITO粉末; 3.成型:使用干压将粒状ITO粉末变成粗糙形状的生坯; 4.加强:使用冷等静压加固粗糙的生坯; 5.脱蜡:将粗糙的生坯放入高温炉中去除添加剂,以获得脱蜡的生坯; 6.烧结:将脱蜡的生坯放入可控气氛炉中,并在1.1atm至1.9atm的气体压力下烧结脱蜡的生坯。 通过使用上述步骤,可获得高密度ITO溅射靶。

    Method for obtaining the nano-scale acicular oxidation compound powder
    5.
    发明申请
    Method for obtaining the nano-scale acicular oxidation compound powder 审中-公开
    获得纳米针状氧化复合粉末的方法

    公开(公告)号:US20080199394A1

    公开(公告)日:2008-08-21

    申请号:US11706233

    申请日:2007-02-15

    IPC分类号: C01G19/02

    摘要: The invention, firstly, SnCl4 and SbCl3 are collected as raw materials and all dissolved into water and hydrochloric acid with precipitation. Secondly, NaOH or NH40H can be used for adjusting the pH value. Then, aging, water-washing, filtering and drying process are all carried out. The additive also can be put into and sintering process is applied. Furthermore, washing and drying process are used for obtaining the crystalline nano-level acicular ATO composition powder.

    摘要翻译: 本发明首先将SnCl 4和SbCl 3 3作为原料收集,并全部溶解于水和盐酸中沉淀。 其次,NaOH或NH 4 OH可用于调节pH值。 然后,进行老化,水洗,过滤和干燥过程。 添加剂也可以放入烧结过程中。 此外,使用洗涤和干燥方法获得结晶纳米级针状ATO组合物粉末。

    Method for Making Nanometer ITO Powder
    7.
    发明申请
    Method for Making Nanometer ITO Powder 审中-公开
    制备纳米ITO粉末的方法

    公开(公告)号:US20120141358A1

    公开(公告)日:2012-06-07

    申请号:US12957621

    申请日:2010-12-01

    IPC分类号: C01G19/02 B82Y40/00

    摘要: Disclosed is a method for making nanometer ITO powder. In the method, first and second reactants are added to a solvent to provide a clear metal ion solution. The solvent is an alcohol or an organic solvent. The clear metal ion solution is added to a hydrolysis concentration solution at a desired ratio to provide a first solution. The hydrolysis concentration solution contains a sour catalyst and water. An aging step is taken on the first solution and the hydrolysis concentration solution to provide a second solution. A solvothermal step is executed on the second solution to provide multi-ingredient transparent conductive ITO powder in the order of nanometer. The solvothermal step includes the steps of locating the second solution in a solvothermal device and heating the second solution to a solvothermal temperature for a solvothermal reaction.

    摘要翻译: 公开了制备纳米ITO粉末的方法。 在该方法中,将第一和第二反应物加入到溶剂中以提供澄清的金属离子溶液。 溶剂是醇或有机溶剂。 将澄清的金属离子溶液以所需的比例加入到水解浓缩溶液中以提供第一溶液。 水解浓度溶液含有酸性催化剂和水。 在第一溶液和水解浓度溶液上进行老化步骤以提供第二溶液。 在第二溶液上进行溶剂热步骤以提供纳米级的多成分透明导电ITO粉末。 溶剂热步骤包括将第二溶液定位在溶剂热装置中并将第二溶液加热至溶剂热温度进行溶剂热反应的步骤。

    METHOD OF MANUFACTURING THIN-FILM ANTENNA
    9.
    发明申请
    METHOD OF MANUFACTURING THIN-FILM ANTENNA 有权
    制造薄膜天线的方法

    公开(公告)号:US20070207262A1

    公开(公告)日:2007-09-06

    申请号:US11366117

    申请日:2006-03-02

    CPC分类号: H05K3/048 H01Q1/2283 H05K3/16

    摘要: A method of manufacturing a thin-film antenna is disclosed. A substrate is provided and coated with an organic material layer. After both of the substrate and organic material layer have been dried, a conductive layer is formed on both the substrate and the organic material layer. The organic material layer and the layer thereon are then removed so that the remaining conductive layer forms a thin-film antenna.

    摘要翻译: 公开了制造薄膜天线的方法。 提供衬底并涂覆有机材料层。 在基板和有机材料层都被干燥之后,在基板和有机材料层上形成导电层。 然后去除有机材料层和其上的层,使得剩余的导电层形成薄膜天线。