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1. 发明申请

WO2006031253A2 PLASMON NANOPARTICLES AND PIXELS, DISPLAYS AND INKS USING THEM 审中-公开
标题翻译：使用它们的PLASMON纳米颗粒和像素，显示器和墨水
公开(公告)号：WO2006031253A2
公开(公告)日：2006-03-23
申请号：PCT/US2005/010324
申请日：2005-03-28
申请人： SOLARIS NANOSCIENCES, INC. , LAWANDY, Nabil, M.
发明人： LAWANDY, Nabil, M.
IPC分类号： C12P21/06
CPC分类号： G02F1/17 , B82Y20/00 , C09D11/50 , G02F2203/10 , G02F2203/12 , Y10T428/25
摘要： A pixel that includes a plurality of plasmon nanoparticle is provided. In certain examples, the pixel is configured to transmit or to reflect a variable wavelength of light with varying concentrations of plasmon nanoparticles. Displays including the pixels are also disclosed. An ink which includes plasmon nanoparticles is also provided.
摘要翻译：提供了包括多个等离子体纳米颗粒的像素。在某些示例中，像素被配置为透射或反射具有不同浓度的等离子体纳米颗粒的可变波长的光。还公开了包括像素的显示。还提供了包括等离子体纳米颗粒的油墨。

2. 发明申请

WO2005114748A3 PLASMON ENHANCED SENSITIZED PHOTOVOLTAIC CELLS 审中-公开
公开(公告)号：WO2005114748A3
公开(公告)日：2005-12-01
申请号：PCT/US2005/012523
申请日：2005-04-13
申请人： SOLARIS NANOSCIENCES, INC. , LAWANDY, Nabil, M.
发明人： LAWANDY, Nabil, M.
IPC分类号： H01L31/0352
摘要： A plasmon enhanced particle for use in a photovoltaic cell. The particle includes a nanostructure capable of plasmon resonance; a charge accepting semiconductor in conjunction with the nanostructure; and a sensitizer coating the charge accepting semiconductor. Another aspect the invention relates to a plasmon enhanced solar photovoltaic cell. The solar photovoltaic cell includes a plurality of nanoparticles capable of plasmon resonance; a plurality of nanoparticles of charge accepting semiconductor in conjunction with the nanoparticles capable of plasmon resonance; and a coating of sensitizer on the plurality of nanoparticles of charge accepting semiconductor. Another aspect relates to a method of making a plasmon enhanced material suitable for use in a photovoltaic cell. The steps include providing a nanostructure capable of plasmon resonance; providing a charge accepting semiconductor in conjunction with the nanostructure; sintering the charge accepting semiconductor such as metal oxide; and coating the charge accepting semiconductor with sensitizer.

3. 发明申请

WO2005103202A3 ANISOTROPIC NANOPARTICLES AND ANISOTROPIC NANOSTRUCTURES AND PIXELS, DISPLAYS AND INKS USING THEM 审中-公开
公开(公告)号：WO2005103202A3
公开(公告)日：2005-11-03
申请号：PCT/US2005/010553
申请日：2005-03-31
申请人： SOLARIS NANOSCIENCES, INC. , LAWANDY, Nabil, M.
发明人： LAWANDY, Nabil, M.
IPC分类号： C09K19/52
摘要： A pixel that includes a liquid crystal material and one or more of an anisotropic nanoparticle and an anisotropic nanostructure is provided. Displays including the pixel are also disclosed. An ink which includes a liquid crystal material and one or more of an anisotropic nanoparticle and an anisotropic nanostructure is also provided.

4. 发明申请

WO2005111584A3 METHOD AND APPARATUS FOR ENHANCING PLASMON-POLARITON AND PHONON POLARITON RESONANCE 审中-公开
公开(公告)号：WO2005111584A3
公开(公告)日：2005-11-24
申请号：PCT/US2005/011727
申请日：2005-04-06
申请人： SOLARIS NANOSCIENCES, INC. , LAWANDY, Nabil, M.
发明人： LAWANDY, Nabil, M.
IPC分类号： G01N21/55
摘要： A method for generating plasmon-polariton or phonon-polariton resonance effect including: providing structure capable of plasmon resonance; providing gain medium; and placing the structure in close juxtaposition to the gain medium. In one embodiment the structure has dimension D and is placed within distance less than or equal to D to, or within or partially within, the gain medium. The invention concerns material for enhanced plasmon resonance including gain medium; and structure capable of such resonance in close juxtaposition to the gain medium. In one embodiment the structure has a plasmon absorption curve, the gain medium has a gain curve and the peak of the plasmon absorption curve lies within the gain curve. The invention concerns a device for enhanced plasmon resonance including gain medium; structure capable of plasmon-polariton or phonon-polariton resonance in close juxtaposition to the gain medium; and a device for stimulating such resonance in the structure.

5. 发明申请

WO2011075486A1 RECHARGEABLE DYE SENSITIZED SOLAR CELL 审中-公开
标题翻译：可充电的DYE敏感太阳能电池
公开(公告)号：WO2011075486A1
公开(公告)日：2011-06-23
申请号：PCT/US2010/060339
申请日：2010-12-14
申请人： SOLARIS NANOSCIENCES, INC. , LAWANDY, Nabil, M.
发明人： LAWANDY, Nabil, M.
IPC分类号： H01L31/00
CPC分类号： H01G9/2004 , H01G9/2031 , H01G9/2059 , H01G9/2068 , H01G9/209 , Y02E10/542
摘要： A method of using a dye sensitized solar cell includes providing a dye sensitized solar cell having a first electrode having a transparent substrate of a first refractive index, a second electrode having a second transparent substrate of a second refractive index comparable to the first refractive index, and an electrolyte solution in a gap between the first electrode and second electrode. The electrolyte solution is removed from the gap and replaced with an inert fluid having a third refractive index comparable to the first refractive index and the second refractive index to allow light to pass through the cell substantially unrefracted. Alternatively, the inert fluid is in the gap between the first electrode and second electrode, and the inert fluid is removed from the gap and replaced with an electrolyte solution.
摘要翻译：使用染料敏化太阳能电池的方法包括提供具有第一电极的染料敏化太阳能电池，所述第一电极具有第一折射率的透明基板，具有与第一折射率相当的第二折射率的第二透明基板的第二电极，以及在第一电极和第二电极之间的间隙中的电解质溶液。从间隙中除去电解质溶液，并用具有与第一折射率和第二折射率相当的第三折射率的惰性流体代替，以允许光通过电池基本上未被折射。或者，惰性流体在第一电极和第二电极之间的间隙中，并且惰性流体从间隙移除并被电解质溶液替代。

6. 发明申请

WO2006122114A2 RECHARGEABLE DYE SENSITIZED SOLAR CELL 审中-公开
标题翻译：可充电的DYE敏感太阳能电池
公开(公告)号：WO2006122114A2
公开(公告)日：2006-11-16
申请号：PCT/US2006/017908
申请日：2006-05-09
申请人： SOLARIS NANOSCIENCES, INC. , LAWANDY, Nabil, M.
发明人： LAWANDY, Nabil, M.
IPC分类号： H01L31/00
CPC分类号： H01G9/2077 , H01G9/2031 , H01G9/2059 , Y02E10/542
摘要： A rechargeable photovoltaic cell. In one embodiment the photovoltaic cell includes a first electrode with a transparent substrate having a porous high surface area titanium dioxide layer thereon, and including a light absorbing dye. The rechargeable cell also includes a second electrode which includes a transparent electrically conductive substrate arranged in spaced apart relationship with the first electrode so as to define a gap with the first electrode. A re-sealable seal provides access to the gap from the exterior of the cell. An electrolyte solution is located within the gap. Another aspect of the invention relates to a method of recharging a photovoltaic cell. In one embodiment the method includes draining the first electrolyte solution from gap in the photovoltaic cell, flushing the first electrolyte solution from the gap, drying the gap, and filling the gap with a second electrolyte solution all through a re-sealable seal.
摘要翻译：可充电光电池。在一个实施例中，光伏电池包括具有透明衬底的第一电极，其上具有多孔高表面积二氧化钛层，并且包括光吸收染料。可再充电电池还包括第二电极，其包括以与第一电极间隔开的关系布置的透明导电衬底，以便限定与第一电极的间隙。可再密封的密封件提供了从电池外部进入间隙的途径。电解质溶液位于间隙内。本发明的另一方面涉及对光伏电池再充电的方法。在一个实施方案中，该方法包括从光伏电池中的间隙排出第一电解质溶液，从间隙冲洗第一电解质溶液，干燥间隙，并用全部通过可再密封的密封件将第二电解质填充间隙。

7. 发明申请

WO2005114748A2 PLASMON ENHANCED SENSITIZED PHOTOVOLTAIC CELLS 审中-公开
标题翻译： PLASMON增强敏感光伏电池
公开(公告)号：WO2005114748A2
公开(公告)日：2005-12-01
申请号：PCT/US2005/012523
申请日：2005-04-13
申请人： SOLARIS NANOSCIENCES, INC. , LAWANDY, Nabil, M.
发明人： LAWANDY, Nabil, M.
IPC分类号： H01L31/00
CPC分类号： H01G9/2031 , B82Y10/00 , B82Y20/00 , B82Y30/00 , G01N21/554 , H01G9/2059 , H01L31/03529 , H01L51/0038 , H01L51/4226 , H01L51/4233 , H01L51/426 , Y02E10/542 , Y02E10/549 , Y02P70/521
摘要： A plasmon enhanced particle for use in a photovoltaic cell. The particle includes a nanostructure capable of plasmon resonance; a charge accepting semiconductor in conjunction with the nanostructure; and a sensitizer coating the charge accepting semiconductor. Another aspect the invention relates to a plasmon enhanced solar photovoltaic cell. The solar photovoltaic cell includes a plurality of nanoparticles capable of plasmon resonance; a plurality of nanoparticles of charge accepting semiconductor in conjunction with the nanoparticles capable of plasmon resonance; and a coating of sensitizer on the plurality of nanoparticles of charge accepting semiconductor. Another aspect relates to a method of making a plasmon enhanced material suitable for use in a photovoltaic cell. The steps include providing a nanostructure capable of plasmon resonance; providing a charge accepting semiconductor in conjunction with the nanostructure; sintering the charge accepting semiconductor such as metal oxide; and coating the charge accepting semiconductor with sensitizer.
摘要翻译：用于光伏电池的等离子体增强粒子。颗粒包括能够进行等离子体共振的纳米结构; 结合纳米结构的电荷接收半导体; 以及涂覆电荷接受半导体的敏化剂。本发明的另一方面涉及等离子体增强太阳能光伏电池。太阳能光伏电池包括能够进行等离子体共振的多个纳米粒子; 与能够进行等离子体共振的纳米粒子结合的多个电荷接受半导体纳米颗粒; 以及在电荷接受半导体的多个纳米颗粒上的敏化剂涂层。另一方面涉及制造适用于光伏电池的等离子体增强材料的方法。这些步骤包括提供能够进行等离子体共振的纳米结构; 提供与纳米结构结合的电荷接收半导体; 烧结诸如金属氧化物的电荷接受半导体; 并用敏化剂涂覆电荷接受半导体。

8. 发明申请

WO2007002715A2 ABSORPTIVE COATING ON A DISC TO CREATE A REFLECTIVE MODULATION FOR ENCRYPTION 审中-公开
标题翻译：吸收涂料在DISC上产生加强反射调制
公开(公告)号：WO2007002715A2
公开(公告)日：2007-01-04
申请号：PCT/US2006/025085
申请日：2006-06-27
申请人： SPECTRA SYSTEMS CORPORATION , LAWANDY, Nabil, M.
发明人： LAWANDY, Nabil, M.
IPC分类号： H04L9/00
CPC分类号： H04K1/00 , G11B7/0053 , G11B7/00736 , G11B7/24056 , G11B7/24097 , G11B7/252 , G11B7/26 , G11B20/00086 , G11B20/00253 , G11B20/00608 , G11B23/284 , G11B2007/24624 , H04L9/0894 , H04L2209/60
摘要： . Described herein are systems and methods for digital data encryption, and more specifically, systems and methods for providing encryption keys for reading encrypted data. Optical media, particularly digital disks, are described where a laser reader accesses digital data on a disk. The disks are coated with a coating containing an encryption key to access encrypted data in the digital disk.
摘要翻译：。这里描述了用于数字数据加密的系统和方法，更具体地，用于提供用于读取加密数据的加密密钥的系统和方法。描述光学介质，特别是数字磁盘，其中激光读取器访问盘上的数字数据。磁盘涂覆有包含加密密钥的涂层，以访问数字磁盘中的加密数据。

9. 发明公开

EP1880418A2 RECHARGEABLE DYE SENSITIZED SOLAR CELL 审中-公开
标题翻译： RECHARGEABLE染料敏化太阳能电池
公开(公告)号：EP1880418A2
公开(公告)日：2008-01-23
申请号：EP06759402.8
申请日：2006-05-09
申请人： Solaris Nanosciences, Inc.
发明人： LAWANDY, Nabil, M.
IPC分类号： H01L25/00 , H01L31/00
CPC分类号： H01G9/2077 , H01G9/2031 , H01G9/2059 , Y02E10/542
摘要： A rechargeable photovoltaic cell includes a first electrode with a transparent substrate having a porous high surface area titanium dioxide layer thereon, and including a light absorbing dye. The rechargeable cell also includes a second electrode which includes a transparent electrically conductive substrate disposed apart from the first electrode so as to define a gap with the first electrode. A re-sealable seal provides access to the gap from the exterior of the cell. An electrolyte solution is located within the gap. Also provided is a method of recharging a photovoltaic cell, including opening a re-sealable seal, draining a first electrolyte solution fro a gap in a photovoltaic cell, flushing a first electrolyte solution from a gap, drying the gap and filling the gap with a second electrolyte solution and closing the re-sealable seal.

10. 发明申请

WO2017031447A1 DEVICE AND METHOD FOR USING GASOCHROMIC SENSING FOR EVALUATING FITNESS 审中-公开
标题翻译：使用GASOCHROMIC SENSING进行评估的装置和方法
公开(公告)号：WO2017031447A1
公开(公告)日：2017-02-23
申请号：PCT/US2016/047835
申请日：2016-08-19
申请人： SPECTRA SYSTEMS CORPORATION , LAWANDY, Nabil, M.
发明人： LAWANDY, Nabil, M.
IPC分类号： G01N15/08
CPC分类号： G07D7/185 , G01N15/082 , G07D7/06
摘要： A method and apparatus for evaluating the fitness of an object based on determination of a measure of permeability of the object, including positioning the object between a fluid source and a gasochromic material, dispensing a fluid from the fluid source towards the object such that at least a portion of the fluid flows through the object and contacts the gasochromic material, exciting the gasochromic material with an excitation source such that an emission of the gasochromic material is in response to the excitation source and the fluid, detecting the emission from the gasochromic material to determine the permeability of the object, and evaluating the fitness of the object based on the determination of the permeability of the object. The gasochromic material may also be included in the object.
摘要翻译：一种用于基于物体的渗透性测量的确定来评估物体的适应度的方法和装置，包括将物体定位在流体源和气体色素材料之间，从流体源向物体分配流体，使得至少一部分流体流过物体并接触气相色谱材料，用激发源激发气相色谱材料，使得气色材料的发射响应于激发源和流体，检测从气相色谱材料的发射到确定对象的渗透性，并且基于对象的渗透性的确定来评估对象的适应度。气相色谱材料也可以包括在物体中。

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