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公开(公告)号:US08992746B2
公开(公告)日:2015-03-31
申请号:US13310083
申请日:2011-12-02
申请人: Yasuyoshi Miyaji , Noriyuki Hayashi , Takamitsu Inahara , Takao Yonehara , Karl-Josef Kramer , Subramanian Tamilmani
发明人: Yasuyoshi Miyaji , Noriyuki Hayashi , Takamitsu Inahara , Takao Yonehara , Karl-Josef Kramer , Subramanian Tamilmani
CPC分类号: C25D11/005 , C25D17/002 , C25D17/005 , C25D17/02 , Y10S414/135 , Y10S414/136 , Y10S414/137 , Y10S414/138 , Y10S414/139 , Y10S414/14 , Y10S414/141
摘要: An apparatus for anodizing substrates immersed in an electrolyte solution. A substrate holder mounted in a storage tank includes a first support unit having first support elements for supporting, in a liquid-tight condition, only lower circumferential portions of the substrates, and a second support unit attachable to and detachable from the first support unit and having second support elements for supporting, in a liquid-tight condition, remaining circumferential portions of the substrates. A drive mechanism separates the first support unit and the second support unit when loading and unloading the substrates, and for connecting the first support unit and the second support unit after the substrates are placed in the substrate holder.
摘要翻译: 用于阳极氧化沉积在电解质溶液中的基底的装置。 安装在储罐中的基板支架包括第一支撑单元,该第一支撑单元具有第一支撑元件,该第一支撑元件用于在液密状态下仅支撑基板的下周边部分;以及第二支撑单元,其可附接到第一支撑单元并且可从第一支撑单元拆卸; 具有用于在液密条件下支撑基板的剩余周向部分的第二支撑元件。 驱动机构在装载和卸载基板时分离第一支撑单元和第二支撑单元,并且在将基板放置在基板支架中之后连接第一支撑单元和第二支撑单元。
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2.发明申请HIGH-THROUGHPUT BATCH POROUS SILICON MANUFACTURING EQUIPMENT DESIGN AND PROCESSING METHODS 有权高通量批量多孔硅制造设备设计与加工方法公开(公告)号:US20130180847A1
公开(公告)日:2013-07-18
申请号:US13244466
申请日:2011-09-24
申请人: Takao Yonehara , Subramanian Tamilmani , Karl-Josef Kramer , Jay Ashjaee , Mehrdad M. Moslehi , Yasuyoshi Miyaji , Noriyuki Hayashi , Takamitsu Inahara
发明人: Takao Yonehara , Subramanian Tamilmani , Karl-Josef Kramer , Jay Ashjaee , Mehrdad M. Moslehi , Yasuyoshi Miyaji , Noriyuki Hayashi , Takamitsu Inahara
IPC分类号: H01L21/02
CPC分类号: C25D11/005 , C25D11/32 , C25F3/12 , C25F7/02 , H01L21/0203 , H01L21/67086 , H01L21/67781 , H01L21/68721 , H01L21/68771 , H01L21/68785 , H01L31/1804 , Y02E10/547 , Y02P70/521
摘要: This disclosure enables high-productivity fabrication of porous semiconductor layers (made of single layer or multi-layer porous semiconductors such as porous silicon, comprising single porosity or multi-porosity layers). Some applications include fabrication of MEMS separation and sacrificial layers for die detachment and MEMS device fabrication, membrane formation and shallow trench isolation (STI) porous silicon (using porous silicon formation with an optimal porosity and its subsequent oxidation). Further, this disclosure is applicable to the general fields of photovoltaics, MEMS, including sensors and actuators, stand-alone, or integrated with integrated semiconductor microelectronics, semiconductor microelectronics chips and optoelectronics.
摘要翻译: 本公开使得可以高产率地制造多孔半导体层(由诸如多孔硅的单层或多层多孔半导体制成,包括单孔隙率或多孔隙率层)。 一些应用包括制造用于脱模和MEMS器件制造,膜形成和浅沟槽隔离(STI)多孔硅的MEMS分离和牺牲层(使用具有最佳孔隙率的多孔硅形成及其随后的氧化)。 此外,本公开适用于光伏技术的MEMS领域,包括传感器和执行器,独立的或与集成半导体微电子,半导体微电子芯片和光电子集成。
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3.发明授权High-Throughput batch porous silicon manufacturing equipment design and processing methods 有权高产量批量多孔硅制造设备的设计和加工方法公开(公告)号:US09076642B2
公开(公告)日:2015-07-07
申请号:US13244466
申请日:2011-09-24
申请人: Takao Yonehara , Subramanian Tamilmani , Karl-Josef Kramer , Jay Ashjaee , Mehrdad M. Moslehi , Yasuyoshi Miyaji , Noriyuki Hayashi , Takamitsu Inahara
发明人: Takao Yonehara , Subramanian Tamilmani , Karl-Josef Kramer , Jay Ashjaee , Mehrdad M. Moslehi , Yasuyoshi Miyaji , Noriyuki Hayashi , Takamitsu Inahara
CPC分类号: C25D11/005 , C25D11/32 , C25F3/12 , C25F7/02 , H01L21/0203 , H01L21/67086 , H01L21/67781 , H01L21/68721 , H01L21/68771 , H01L21/68785 , H01L31/1804 , Y02E10/547 , Y02P70/521
摘要: This disclosure enables high-productivity fabrication of porous semiconductor layers (made of single layer or multi-layer porous semiconductors such as porous silicon, comprising single porosity or multi-porosity layers). Some applications include fabrication of MEMS separation and sacrificial layers for die detachment and MEMS device fabrication, membrane formation and shallow trench isolation (STI) porous silicon (using porous silicon formation with an optimal porosity and its subsequent oxidation). Further, this disclosure is applicable to the general fields of photovoltaics, MEMS, including sensors and actuators, stand-alone, or integrated with integrated semiconductor microelectronics, semiconductor microelectronics chips and optoelectronics.
摘要翻译: 本公开使得可以高产率地制造多孔半导体层(由诸如多孔硅的单层或多层多孔半导体制成,包括单孔隙率或多孔隙率层)。 一些应用包括制造用于脱模和MEMS器件制造,膜形成和浅沟槽隔离(STI)多孔硅的MEMS分离和牺牲层(使用具有最佳孔隙率的多孔硅形成及其随后的氧化)。 此外,本公开适用于光伏技术的MEMS领域,包括传感器和执行器,独立的或与集成半导体微电子,半导体微电子芯片和光电子集成。
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4.发明申请APPARATUS AND METHODS FOR UNIFORMLY FORMING POROUS SEMICONDUCTOR ON A SUBSTRATE 有权在基板上均匀形成多孔半导体的装置和方法公开(公告)号:US20120145553A1
公开(公告)日:2012-06-14
申请号:US13288721
申请日:2011-11-03
申请人: Karl-Josef Kramer , Mehrdad M. Moslehi , Subramanian Tamilmani , George D. Kamian , Jay Ashjaee , Takao Yonehara
发明人: Karl-Josef Kramer , Mehrdad M. Moslehi , Subramanian Tamilmani , George D. Kamian , Jay Ashjaee , Takao Yonehara
CPC分类号: C25D11/005 , C25D7/12 , C25D11/022 , C25D11/024 , C25D11/32 , C25D17/001 , C25D17/008 , C25D17/08 , C25D21/04 , C25F7/00
摘要: This disclosure enables high-productivity controlled fabrication of uniform porous semiconductor layers (made of single layer or multi-layer porous semiconductors such as porous silicon, comprising single porosity or multi-porosity layers). Some applications include fabrication of MEMS separation and sacrificial layers for die detachment and MEMS device fabrication, membrane formation and shallow trench isolation (STI) porous silicon (using porous silicon formation with an optimal porosity and its subsequent oxidation). Further, this disclosure is applicable to the general fields of photovoltaics, MEMS, including sensors and actuators, stand-alone, or integrated with integrated semiconductor microelectronics, semiconductor microelectronics chips and optoelectronics.
摘要翻译: 本公开使得能够高生产率控制制造均匀的多孔半导体层(由单层或多层多孔半导体(例如多孔硅,包括单孔隙或多孔层)制成)。 一些应用包括制造用于脱模和MEMS器件制造,膜形成和浅沟槽隔离(STI)多孔硅的MEMS分离和牺牲层(使用具有最佳孔隙率的多孔硅形成及其随后的氧化)。 此外,本公开适用于光伏技术的MEMS领域,包括传感器和执行器,独立的或与集成半导体微电子,半导体微电子芯片和光电子集成。
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5.发明授权Apparatus and methods for uniformly forming porous semiconductor on a substrate 有权在基板上均匀地形成多孔半导体的装置和方法公开(公告)号:US08906218B2
公开(公告)日:2014-12-09
申请号:US13288721
申请日:2011-11-03
申请人: Karl-Josef Kramer , Mehrdad M. Moslehi , Subramanian Tamilmani , George Kamian , Jay Ashjaee , Takao Yonehara
发明人: Karl-Josef Kramer , Mehrdad M. Moslehi , Subramanian Tamilmani , George Kamian , Jay Ashjaee , Takao Yonehara
CPC分类号: C25D11/005 , C25D7/12 , C25D11/022 , C25D11/024 , C25D11/32 , C25D17/001 , C25D17/008 , C25D17/08 , C25D21/04 , C25F7/00
摘要: This disclosure enables high-productivity controlled fabrication of uniform porous semiconductor layers (made of single layer or multi-layer porous semiconductors such as porous silicon, comprising single porosity or multi-porosity layers). Some applications include fabrication of MEMS separation and sacrificial layers for die detachment and MEMS device fabrication, membrane formation and shallow trench isolation (STI) porous silicon (using porous silicon formation with an optimal porosity and its subsequent oxidation). Further, this disclosure is applicable to the general fields of photovoltaics, MEMS, including sensors and actuators, stand-alone, or integrated with integrated semiconductor microelectronics, semiconductor microelectronics chips and optoelectronics.
摘要翻译: 本公开使得能够高生产率控制制造均匀的多孔半导体层(由单层或多层多孔半导体(例如多孔硅,包括单孔隙或多孔层)制成)。 一些应用包括制造用于脱模和MEMS器件制造,膜形成和浅沟槽隔离(STI)多孔硅的MEMS分离和牺牲层(使用具有最佳孔隙率的多孔硅形成及其随后的氧化)。 此外,本公开适用于光伏技术的MEMS领域,包括传感器和执行器,独立的或与集成半导体微电子,半导体微电子芯片和光电子集成。
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6.发明申请APPARATUS AND METHOD FOR REPEATEDLY FABRICATING THIN FILM SEMICONDUCTOR SUBSTRATES USING A TEMPLATE 审中-公开使用模板重新制造薄膜半导体衬底的装置和方法公开(公告)号:US20120125256A1
公开(公告)日:2012-05-24
申请号:US13209390
申请日:2011-08-13
申请人: Karl-Josef Kramer , Mehrdad M. Moslehi , David Xuan-Qi Wang , Subramanian Tamilmani , Sam Tone Tor , Rahim Kavari , Rafael Ricolcol , George Kamian , Joseph Leigh
发明人: Karl-Josef Kramer , Mehrdad M. Moslehi , David Xuan-Qi Wang , Subramanian Tamilmani , Sam Tone Tor , Rahim Kavari , Rafael Ricolcol , George Kamian , Joseph Leigh
IPC分类号: C30B25/02
CPC分类号: H01L31/1892 , H01L31/02363 , H01L31/035281 , H01L31/0392 , Y02E10/50
摘要: Mechanisms are disclosed by which a semiconductor wafer, silicon in some embodiments, is repeatedly used to serve as a template and carrier for fabricating high efficiency capable thin semiconductor solar cells substrates. Mechanisms that enable such repeated use of these templates at consistent quality and with high yield are disclosed.
摘要翻译: 公开了一些机构,其中一些实施例中的半导体晶片,硅被重复地用作用于制造高效率的薄半导体太阳能电池基板的模板和载体。 公开了能够以一致的质量和高产率重复使用这些模板的机制。
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7.发明申请DOUBLE-SIDED REUSABLE TEMPLATE FOR FABRICATION OF SEMICONDUCTOR SUBSTRATES FOR PHOTOVOLTAIC CELL AND MICROELECTRONICS DEVICE MANUFACTURING 有权用于制造用于光电晶体和微电子器件制造的半导体衬底的双面可重复模板公开(公告)号:US20110256654A1
公开(公告)日:2011-10-20
申请号:US13026239
申请日:2011-02-12
申请人: Mehrdad M. Moslehi , Karl-Josef Kramer , David Xuan-Qi Wang , Pawan Kapur , Somnath Nag , George D Kamian , Jay Ashjaee , Takao Yonehara
发明人: Mehrdad M. Moslehi , Karl-Josef Kramer , David Xuan-Qi Wang , Pawan Kapur , Somnath Nag , George D Kamian , Jay Ashjaee , Takao Yonehara
CPC分类号: H01L21/20 , H01L31/1804 , Y02E10/547 , Y02P70/521
摘要: This disclosure presents manufacturing methods and apparatus designs for making TFSSs from both sides of a re-usable semiconductor template, thus effectively increasing the substrate manufacturing throughput and reducing the substrate manufacturing cost. This approach also reduces the amortized starting template cost per manufactured substrate (TFSS) by about a factor of 2 for a given number of template reuse cycles.
摘要翻译: 本公开提供了从可再使用的半导体模板的两侧制造TFSS的制造方法和装置设计,从而有效地增加了基板制造的吞吐量并降低了基板的制造成本。 对于给定数量的模板重用周期,这种方法还将每个制造的衬底(TFSS)的平均起始模板成本降低约2倍。
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公开(公告)号:US08999058B2
公开(公告)日:2015-04-07
申请号:US12774667
申请日:2010-05-05
申请人: George D. Kamian , Somnath Nag , Subbu Tamilmani , Mehrdad M. Moslehi , Karl-Josef Kramer , Takao Yonehara
发明人: George D. Kamian , Somnath Nag , Subbu Tamilmani , Mehrdad M. Moslehi , Karl-Josef Kramer , Takao Yonehara
CPC分类号: C25D11/32 , C25D11/005 , C25D17/001 , C25D17/06 , C25F3/12 , C25F7/00 , H01L31/1892 , Y02E10/50
摘要: This disclosure enables high-productivity fabrication of semiconductor-based separation layers (made of single layer or multi-layer porous semiconductors such as porous silicon, comprising single porosity or multi-porosity layers), optical reflectors (made of multi-layer/multi-porosity porous semiconductors such as porous silicon), formation of porous semiconductor (such as porous silicon) for anti-reflection coatings, passivation layers, and multi-junction, multi-band-gap solar cells (for instance, by forming a variable band gap porous silicon emitter on a crystalline silicon thin film or wafer-based solar cell). Other applications include fabrication of MEMS separation and sacrificial layers for die detachment and MEMS device fabrication, membrane formation and shallow trench isolation (STI) porous silicon (using porous silicon formation with an optimal porosity and its subsequent oxidation). Further the disclosure is applicable to the general fields of Photovoltaics, MEMS, including sensors and actuators, stand-alone, or integrated with integrated semiconductor microelectronics, semiconductor microelectronics chips and optoelectronics.
摘要翻译: 本公开使得能够高生产率地制造基于半导体的分离层(由单层或多层多孔半导体(例如多孔硅,包括单孔隙率或多孔度层构成),光反射器(由多层/多孔多孔半导体 孔隙度多孔半导体如多孔硅),用于防反射涂层的多孔半导体(例如多孔硅)的形成,钝化层和多结的多带隙太阳能电池(例如,通过形成可变带隙 晶体硅薄膜或晶圆太阳能电池上的多孔硅发射器)。 其他应用包括制造用于脱模和MEMS器件制造,膜形成和浅沟槽隔离(STI)多孔硅的MEMS分离和牺牲层(使用具有最佳孔隙率并随后氧化的多孔硅形成)。 此外,本公开可应用于光伏,MEMS(包括传感器和致动器)的独立或集成半导体微电子,半导体微电子芯片和光电子学的一般领域。
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公开(公告)号:US20120085278A1
公开(公告)日:2012-04-12
申请号:US13157250
申请日:2011-06-09
申请人: Mehrdad M. Moslehi , Karl-Josef Kramer , Jay Ashjaee , George D. Kamian , David Mordo , Takao Yonehara
发明人: Mehrdad M. Moslehi , Karl-Josef Kramer , Jay Ashjaee , George D. Kamian , David Mordo , Takao Yonehara
IPC分类号: C30B23/06 , H01L21/673 , C30B23/02 , C23C16/455 , C23C16/46
CPC分类号: H01L21/67754 , C23C16/45585 , C23C16/481 , C23C16/54 , H01L21/02532 , H01L21/0262 , H01L21/6719 , H01L21/67757
摘要: High productivity thin film deposition methods and tools are provided wherein a thin film semiconductor material layer with a thickness in the range of less than 1 micron to 100 microns is deposited on a plurality of wafers in a reactor. The wafers are loaded on a batch susceptor and the batch susceptor is positioned in the reactor such that a tapered gas flow space is created between the susceptor and an interior wall of the reactor. Reactant gas is then directed into the tapered gas space and over each wafer thereby improving deposition uniformity across each wafer and from wafer to wafer.
摘要翻译: 提供了高生产率薄膜沉积方法和工具,其中厚度在小于1微米至100微米范围内的薄膜半导体材料层沉积在反应器中的多个晶片上。 将晶片装载在分批基座上,并且批量基座位于反应器中,使得在基座和反应器的内壁之间形成锥形气体流动空间。 然后将反应性气体引导到锥形气体空间中并遍及每个晶片,从而改善每个晶片和从晶片到晶片的沉积均匀性。
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公开(公告)号:US20110030610A1
公开(公告)日:2011-02-10
申请号:US12774667
申请日:2010-05-05
申请人: George D. Kamian , Somnath Nag , Subbu Tamilmani , Mehrdad M. Moslehi , Karl-Josef Kramer , Takao Yonehara
发明人: George D. Kamian , Somnath Nag , Subbu Tamilmani , Mehrdad M. Moslehi , Karl-Josef Kramer , Takao Yonehara
CPC分类号: C25D11/32 , C25D11/005 , C25D17/001 , C25D17/06 , C25F3/12 , C25F7/00 , H01L31/1892 , Y02E10/50
摘要: This disclosure enables high-productivity fabrication of semiconductor-based separation layers (made of single layer or multi-layer porous semiconductors such as porous silicon, comprising single porosity or multi-porosity layers), optical reflectors (made of multi-layer/multi-porosity porous semiconductors such as porous silicon), formation of porous semiconductor (such as porous silicon) for anti-reflection coatings, passivation layers, and multi-junction, multi-band-gap solar cells (for instance, by forming a variable band gap porous silicon emitter on a crystalline silicon thin film or wafer-based solar cell). Other applications include fabrication of MEMS separation and sacrificial layers for die detachment and MEMS device fabrication, membrane formation and shallow trench isolation (STI) porous silicon (using porous silicon formation with an optimal porosity and its subsequent oxidation). Further the disclosure is applicable to the general fields of Photovoltaics, MEMS, including sensors and actuators, stand-alone, or integrated with integrated semiconductor microelectronics, semiconductor microelectronics chips and optoelectronics.
摘要翻译: 本公开使得能够高生产率地制造基于半导体的分离层(由单层或多层多孔半导体(例如多孔硅,包括单孔隙率或多孔度层构成),光反射器(由多层/多孔多孔半导体 孔隙度多孔半导体如多孔硅),用于防反射涂层的多孔半导体(例如多孔硅)的形成,钝化层和多结的多带隙太阳能电池(例如,通过形成可变带隙 晶体硅薄膜或晶圆太阳能电池上的多孔硅发射器)。 其他应用包括制造用于脱模和MEMS器件制造,膜形成和浅沟槽隔离(STI)多孔硅的MEMS分离和牺牲层(使用具有最佳孔隙率并随后氧化的多孔硅形成)。 此外,本公开可应用于光伏,MEMS(包括传感器和致动器)的独立或集成半导体微电子,半导体微电子芯片和光电子学的一般领域。
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