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1.发明授权Nanopore electrode, nanopore membrane, methods of preparation and surface modification, and use thereof 有权纳米孔电极,纳米孔膜,制备方法和表面改性及其用途公开(公告)号:US08293083B2
公开(公告)日:2012-10-23
申请号:US12949469
申请日:2010-11-18
申请人: Henry S White , Bo Zhang , Ryan J White , Eric N Ervin , Gangli Wang
发明人: Henry S White , Bo Zhang , Ryan J White , Eric N Ervin , Gangli Wang
IPC分类号: G01N27/333 , G01N27/40 , C25B13/02 , C25B13/04
CPC分类号: B01D71/04 , B01D67/006 , B01D2325/021 , Y10S977/904 , Y10S977/953 , Y10T29/49 , Y10T29/49002 , Y10T29/49004 , Y10T29/49826
摘要: Provided are fabrication, characterization and application of a nanodisk electrode, a nanopore electrode and a nanopore membrane. These three nanostructures share common fabrication steps. In one embodiment, the fabrication of a disk electrode involves sealing a sharpened internal signal transduction element (“ISTE”) into a substrate, followed by polishing of the substrate until a nanometer-sized disk of the ISTE is exposed. The fabrication of a nanopore electrode is accomplished by etching the nanodisk electrode to create a pore in the substrate, with the remaining ISTE comprising the pore base. Complete removal of the ISTE yields a nanopore membrane, in which a conical shaped pore is embedded in a thin membrane of the substrate.
摘要翻译: 提供了纳米棒电极,纳米孔电极和纳米孔膜的制造,表征和应用。 这三种纳米结构具有共同的制造步骤。 在一个实施例中,盘电极的制造包括将锐化的内部信号转导元件(ISTE)密封到衬底中,随后抛光衬底,直到暴露ISTE的纳米尺寸的盘。 纳米孔电极的制造通过蚀刻纳米盘电极以在衬底中产生孔而实现,剩余的ISTE包含孔基。 完全去除ISTE产生纳米孔膜,其中锥形孔被嵌入在基底的薄膜中。
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公开(公告)号:US20100025263A1
公开(公告)日:2010-02-04
申请号:US11743536
申请日:2007-05-02
申请人: Henry S. White , Bo Zhang , Ryan J. White , Eric N. Ervin
发明人: Henry S. White , Bo Zhang , Ryan J. White , Eric N. Ervin
CPC分类号: G01N33/48721 , B82Y15/00 , G01N15/12 , Y10T29/49826
摘要: Provided are the preparation, characterization, and application of a nanopore membrane device. The nanopore device comprises a thin membrane prepared from glass, fused silica, ceramics or quartz, containing one or more nanopores ranging from about 2 nm to about 500 nm. The nanopore is prepared by a template method using sharpened metal wires and the size of the pore opening can be controlled during fabrication by an electrical feedback circuit. The nanopore device is particularly useful for counting and analyzing nanoparticles of radius less than 400 nm.
摘要翻译: 提供纳米孔膜装置的制备,表征和应用。 纳米孔装置包括由玻璃,熔融石英,陶瓷或石英制备的薄膜,其含有一个或多个范围为约2nm至约500nm的纳米孔。 通过使用尖锐金属线的模板法制备纳米孔,并且可以通过电反馈电路在制造期间控制孔隙的尺寸。 纳米孔装置对于计数和分析半径小于400nm的纳米粒子是特别有用的。
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3.发明申请NANOPORE ELECTRODE, NANOPORE MEMBRANE, METHODS OF PREPARATION AND SURFACE MODIFICATION, AND USE THEREOF 有权NANOPORE ELECTRODE,NANOPORE MEMBRANE,METHODS OF PROBARATION AND SURFACE MODIFICATION,AND USE THEREOF公开(公告)号:US20080121534A1
公开(公告)日:2008-05-29
申请号:US11744154
申请日:2007-05-03
申请人: Henry S. White , Bo Zhang , Ryan J. White , Eric N. Ervin , Gangli Wang
发明人: Henry S. White , Bo Zhang , Ryan J. White , Eric N. Ervin , Gangli Wang
CPC分类号: B01D71/04 , B01D67/006 , B01D2325/021 , Y10S977/904 , Y10S977/953 , Y10T29/49 , Y10T29/49002 , Y10T29/49004 , Y10T29/49826
摘要: Provided are fabrication, characterization and application of a nanodisk electrode, a nanopore electrode and a nanopore membrane. These three nanostructures share common fabrication steps. In one embodiment, the fabrication of a disk electrode involves sealing a sharpened internal signal transduction element (“ISTE”) into a substrate, followed by polishing of the substrate until a nanometer-sized disk of the ISTE is exposed. The fabrication of a nanopore electrode is accomplished by etching the nanodisk electrode to create a pore in the substrate, with the remaining ISTE comprising the pore base. Complete removal of the ISTE yields a nanopore membrane, in which a conical shaped pore is embedded in a thin membrane of the substrate.
摘要翻译: 提供了纳米棒电极,纳米孔电极和纳米孔膜的制造,表征和应用。 这三种纳米结构具有共同的制造步骤。 在一个实施例中,盘形电极的制造包括将锐化的内部信号转导元件(“ISTE”)密封到衬底中,随后抛光衬底直至暴露出ISTE的纳米尺寸的盘。 纳米孔电极的制造通过蚀刻纳米盘电极以在衬底中产生孔而实现,剩余的ISTE包含孔基。 完全去除ISTE产生纳米孔膜,其中锥形孔被嵌入在基底的薄膜中。
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4.发明申请Nanopore Electrode, Nanopore Membrane, Methods of Preparation and Surface Modification, and Use Thereof 有权纳米孔电极,纳米孔膜,制备方法和表面改性及其用途公开(公告)号:US20110168551A1
公开(公告)日:2011-07-14
申请号:US12949469
申请日:2010-11-18
申请人: Henry S. White , Bo Zhang , Ryan J. White , Eric N. Ervin , Gangli Wang
发明人: Henry S. White , Bo Zhang , Ryan J. White , Eric N. Ervin , Gangli Wang
CPC分类号: B01D71/04 , B01D67/006 , B01D2325/021 , Y10S977/904 , Y10S977/953 , Y10T29/49 , Y10T29/49002 , Y10T29/49004 , Y10T29/49826
摘要: Provided are fabrication, characterization and application of a nanodisk electrode, a nanopore electrode and a nanopore membrane. These three nanostructures share common fabrication steps. In one embodiment, the fabrication of a disk electrode involves sealing a sharpened internal signal transduction element (“ISTE”) into a substrate, followed by polishing of the substrate until a nanometer-sized disk of the ISTE is exposed. The fabrication of a nanopore electrode is accomplished by etching the nanodisk electrode to create a pore in the substrate, with the remaining ISTE comprising the pore base. Complete removal of the ISTE yields a nanopore membrane, in which a conical shaped pore is embedded in a thin membrane of the substrate.
摘要翻译: 提供了纳米棒电极,纳米孔电极和纳米孔膜的制造,表征和应用。 这三种纳米结构具有共同的制造步骤。 在一个实施例中,盘形电极的制造包括将锐化的内部信号转导元件(“ISTE”)密封到衬底中,随后抛光衬底直至暴露出ISTE的纳米尺寸的盘。 纳米孔电极的制造通过蚀刻纳米盘电极以在衬底中产生孔而实现,剩余的ISTE包含孔基。 完全去除ISTE产生纳米孔膜,其中锥形孔被嵌入在基底的薄膜中。
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5.发明授权Nanopore electrode, nanopore membrane, methods of preparation and surface modification, and use thereof 有权纳米孔电极,纳米孔膜,制备方法和表面改性及其用途公开(公告)号:US07849581B2
公开(公告)日:2010-12-14
申请号:US11744154
申请日:2007-05-03
申请人: Henry S. White , Bo Zhang , Ryan J. White , Eric N. Ervin , Gangli Wang
发明人: Henry S. White , Bo Zhang , Ryan J. White , Eric N. Ervin , Gangli Wang
IPC分类号: G01R31/28
CPC分类号: B01D71/04 , B01D67/006 , B01D2325/021 , Y10S977/904 , Y10S977/953 , Y10T29/49 , Y10T29/49002 , Y10T29/49004 , Y10T29/49826
摘要: Provided are fabrication, characterization and application of a nanodisk electrode, a nanopore electrode and a nanopore membrane. These three nanostructures share common fabrication steps. In one embodiment, the fabrication of a disk electrode involves sealing a sharpened internal signal transduction element (“ISTE”) into a substrate, followed by polishing of the substrate until a nanometer-sized disk of the ISTE is exposed. The fabrication of a nanopore electrode is accomplished by etching the nanodisk electrode to create a pore in the substrate, with the remaining ISTE comprising the pore base. Complete removal of the ISTE yields a nanopore membrane, in which a conical shaped pore is embedded in a thin membrane of the substrate.
摘要翻译: 提供了纳米棒电极,纳米孔电极和纳米孔膜的制造,表征和应用。 这三种纳米结构具有共同的制造步骤。 在一个实施例中,盘形电极的制造包括将锐化的内部信号转导元件(“ISTE”)密封到衬底中,随后抛光衬底,直到暴露ISTE的纳米尺寸的盘。 纳米孔电极的制造通过蚀刻纳米盘电极以在衬底中产生孔而实现,剩余的ISTE包含孔基。 完全去除ISTE产生纳米孔膜,其中锥形孔被嵌入在基底的薄膜中。
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公开(公告)号:USD1024702S1
公开(公告)日:2024-04-30
申请号:US29908299
申请日:2024-01-11
申请人: Bo Zhang
设计人: Bo Zhang
摘要: FIG. 1 is a front, top and right-side perspective view of the floating drink holder for pool showing my new design;
FIG. 2 is a front elevation view thereof;
FIG. 3 is a rear elevation view thereof;
FIG. 4 is a left side elevation view thereof;
FIG. 5 is a right side elevation view thereof;
FIG. 6 is a top plan view thereof;
FIG. 7 is a bottom plan view thereof;
FIG. 8 is a rear, bottom and left-side perspective view thereof; and,
FIG. 9 is an enlarged view selected from FIG. 1.
The broken lines throughout the drawing figures depict portions of the floating drink holder for pool that form no part of the claimed design.-
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公开(公告)号:US08948614B1
公开(公告)日:2015-02-03
申请号:US13434532
申请日:2012-03-29
IPC分类号: H04B10/61
CPC分类号: H04B10/616 , H04B10/58
摘要: This disclosure describes techniques to utilize pluggable photonics module in high data rates optical communications systems such as some coherent optical communications system. The pluggable photonics module plugs into a host board. The host board includes a processor that compensates for distortion caused by data streams traveling across the pluggable interfaces that the pluggable photonics module and host board use to couple to one another.
摘要翻译: 本公开描述了在诸如一些相干光通信系统的高数据速率光通信系统中利用可插拔光子模块的技术。 可插拔光子模块插入主机板。 主机板包括处理器,其补偿由可插拔光子模块和主机板用于彼此耦合的可插拔接口上行进的数据流引起的失真。
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公开(公告)号:US08947063B2
公开(公告)日:2015-02-03
申请号:US13637298
申请日:2011-03-07
申请人: Bo Zhang , Shaowei Zhen , Ping Luo , Xiaohui Zhu , Jiangkun Li
发明人: Bo Zhang , Shaowei Zhen , Ping Luo , Xiaohui Zhu , Jiangkun Li
CPC分类号: H02M3/158 , H02M3/157 , H02M3/1588 , H02M2001/0016 , H02M2001/0025 , Y02B70/1466
摘要: An output voltage regulator of step-down switching power converters is described, with the regulator provided with digitally adjusted output voltage. It solves the problem of low regulation due to low error amplifier (EA) gain. This invention includes a power converter with the function of Digitally Error Correction, having Logic Control, EA, PWM comparator, Driver, power devices and passive components. A Digital Calibration Circuit whose input terminal is connected to the output voltage and output terminal is connected to the error signal. When the output voltage exceeds the tolerance range, this Digital Calibration Circuit will increase or decrease the error signal step by step, keeping the output voltage in the tolerance range. The Digital Calibration Circuit can be applied not only in nanometer scale process, but also in traditional process. For those power converters in traditional process, it is also quite promising in applications.
摘要翻译: 描述了降压开关电源转换器的输出电压调节器,调节器提供数字调节的输出电压。 它解决了由于低误差放大器(EA)增益引起的低调制问题。 本发明包括具有数字误差校正功能的功率转换器,具有逻辑控制,EA,PWM比较器,驱动器,功率器件和无源组件。 其输入端连接到输出电压和输出端的数字校准电路连接到误差信号。 当输出电压超过公差范围时,该数字校准电路将逐步增加或减少误差信号,将输出电压保持在公差范围内。 数字校准电路不仅可以在纳米级工艺中应用,也可以应用于传统工艺。 对于传统过程中的电源转换器,在应用中也是非常有希望的。
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