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    • 4. 发明申请
    • Plasmonic Device Tuned using Liquid Crystal Molecule Dipole Control
    • 使用液晶分子偶极子控制调谐的等离子体装置
    • US20110109821A1
    • 2011-05-12
    • US12635349
    • 2009-12-10
    • Liang TangAkinori HashimuraJiandong HuangApostolos T. Voutsas
    • Liang TangAkinori HashimuraJiandong HuangApostolos T. Voutsas
    • G02F1/133
    • G02F1/23G02F2203/10G02F2203/34
    • A plasmonic display device is provided with liquid crystal dipole molecule control. The device is made from a first set of electrodes including at least one electrically conductive top electrode and at least one electrically conductive bottom electrode capable of generating a first electric field in a first direction. A second set of electrodes, including an electrically conductive right electrode and an electrically conductive left electrode, is capable of generating a second electric field in a second first direction. A dielectric layer overlies the bottom electrode, made from a liquid crystal material with molecules having dipoles responsive to an electric field. A plasmonic layer, including a plurality of discrete plasmonic particles, is interposed between the first and second set of electrodes and in contact with the dielectric layer. In one aspect, the plasmonic layer is embedded in the dielectric layer.
    • 具有液晶偶极子分子控制的等离子体显示装置。 该装置由第一组电极制成,其包括至少一个导电顶电极和能够沿第一方向产生第一电场的至少一个导电底电极。 包括导电右电极和导电左电极的第二组电极能够在第二第一方向上产生第二电场。 电介质层覆盖在液晶材料制成的底部电极上,分子具有响应于电场的偶极子。 包括多个离散等离子体激元的等离子体激元层介于第一和第二组电极之间并与电介质层接触。 在一个方面,等离子体激元层嵌入电介质层。
    • 5. 发明授权
    • Plasmonic device tuned using liquid crystal molecule dipole control
    • 使用液晶分子偶极子控制调谐的等离子体装置
    • US08355099B2
    • 2013-01-15
    • US12635349
    • 2009-12-10
    • Liang TangAkinori HashimuraJiandong HuangApostolos T. Voutsas
    • Liang TangAkinori HashimuraJiandong HuangApostolos T. Voutsas
    • G02F1/1333
    • G02F1/23G02F2203/10G02F2203/34
    • A plasmonic display device is provided with liquid crystal dipole molecule control. The device is made from a first set of electrodes including at least one electrically conductive top electrode and at least one electrically conductive bottom electrode capable of generating a first electric field in a first direction. A second set of electrodes, including an electrically conductive right electrode and an electrically conductive left electrode, is capable of generating a second electric field in a second first direction. A dielectric layer overlies the bottom electrode, made from a liquid crystal material with molecules having dipoles responsive to an electric field. A plasmonic layer, including a plurality of discrete plasmonic particles, is interposed between the first and second set of electrodes and in contact with the dielectric layer. In one aspect, the plasmonic layer is embedded in the dielectric layer.
    • 具有液晶偶极子分子控制的等离子体显示装置。 该装置由第一组电极制成,其包括至少一个导电顶电极和能够沿第一方向产生第一电场的至少一个导电底电极。 包括导电右电极和导电左电极的第二组电极能够在第二第一方向上产生第二电场。 电介质层覆盖在液晶材料制成的底部电极上,分子具有响应于电场的偶极子。 包括多个离散等离子体激元的等离子体激元层介于第一和第二组电极之间并与电介质层接触。 在一个方面,等离子体激元层嵌入电介质层。
    • 8. 发明授权
    • Touch-enabled plasmonic reflective display
    • 触摸式等离子体反射显示屏
    • US08503064B2
    • 2013-08-06
    • US13157225
    • 2011-06-09
    • Liang TangAkinori HashimuraApostolos T. Voutsas
    • Liang TangAkinori HashimuraApostolos T. Voutsas
    • G02B26/00
    • G02F1/0128G02F1/13338G02F1/19G02F2001/13345G02F2203/10G02F2203/34G06F3/0412
    • An electrical pressure-sensitive reflective display includes an array of display pixels, each with a transparent top surface, first electrode, second electrode, an elastic polymer medium, and metallic nanoparticles distributed in the elastic polymer medium. When a first voltage potential is applied between the first and second electrodes of each display pixel, a first color is reflected from the incident spectrum of light, assuming no pressure is applied on the top surface of each display pixel. When the top surface of a first display pixel is deformed in response to an applied pressure, the elastic polymer medium in the first display pixel is compressed, decreasing the metallic nanoparticle-to-metallic nanoparticle mean distance in the first display pixel. In response to decreasing the metallic nanoparticle-to-metallic nanoparticle mean distance, the color reflected from the incident spectrum of light by the second display pixel is changed from the first color to second color.
    • 电压敏反射显示器包括显示像素阵列,每个显示像素具有分布在弹性聚合物介质中的透明顶表面,第一电极,第二电极,弹性聚合物介质和金属纳米颗粒。 当在每个显示像素的第一和第二电极之间施加第一电压电位时,假设在每个显示像素的顶表面上没有施加压力,第一颜色从光的入射光谱反射。 当第一显示像素的顶表面响应于所施加的压力而变形时,第一显示像素中的弹性聚合物介质被压缩,从而降低第一显示像素中金属纳米颗粒与金属纳米颗粒的平均距离。 响应于减少金属纳米颗粒 - 金属纳米颗粒平均距离,由第二显示像素的入射光谱反射的颜色从第一颜色变为第二颜色。
    • 9. 发明授权
    • Color-tunable plasmonic device with a partially modulated refractive index
    • 具有部分调制折射率的可调谐等离子体激元器件
    • US08045107B2
    • 2011-10-25
    • US12614368
    • 2009-11-06
    • Liang TangAkinori HashimuraApostolos T. Voutsas
    • Liang TangAkinori HashimuraApostolos T. Voutsas
    • G02F1/1335G02B26/00H01L21/00
    • G02F1/195G02F2203/10
    • A color-tunable plasmonic device is provided with a partially modulated refractive index. A first dielectric layer overlies a bottom electrode, and has a refractive index non-responsive to an electric field. A second dielectric layer overlies the first dielectric layer, having a refractive index responsive to an electric field. An electrically conductive top electrode overlies the second dielectric layer. A plasmonic layer including a plurality of discrete plasmonic particles is interposed between the top and bottom electrodes. In one aspect, the plasmonic layer is interposed between the first and second dielectric layers. In a second aspect, the plasmonic layer is interposed between the first dielectric layer and the bottom electrode. In a third aspect, a first plasmonic layer is interposed between the first dielectric layer and the bottom electrode, and a second plasmonic layer of discrete plasmonic particles is interposed between the first dielectric layer and the second dielectric layer.
    • 彩色等离子体激元器件具有部分调制的折射率。 第一电介质层覆盖在底部电极上,并且具有对电场无响应的折射率。 第二电介质层覆盖第一电介质层,具有响应于电场的折射率。 导电顶电极覆盖在第二电介质层上。 包括多个离散等离子体激元的等离子体激元层插入在顶部和底部电极之间。 在一个方面,等离子体激元层介于第一和第二电介质层之间。 在第二方面,等离子体激元层介于第一介电层和底电极之间。 在第三方面中,在第一介电层和底电极之间插入第一等离子体激元层,并且在第一介电层和第二电介质层之间插入离散等离子体激元的第二等离子体层。
    • 10. 发明授权
    • Metallic nanoparticle pressure sensor
    • 金属纳米粒子压力传感器
    • US08669952B2
    • 2014-03-11
    • US13157206
    • 2011-06-09
    • Akinori HashimuraLiang TangApostolos T. Voutsas
    • Akinori HashimuraLiang TangApostolos T. Voutsas
    • G06F3/041B25B23/14G01L5/24
    • B82Y15/00G01L1/20G06F3/045
    • An electrical pressure sensor is provided with a method for measuring pressure applied to a sensor surface. The method provides an electrical pressure sensor including a sealed chamber with a top surface, first electrode, second electrode, an elastic polymer medium, and metallic nanoparticles distributed in the elastic polymer medium. When the top surface of the sensor is deformed in response to an applied pressure, the elastic polymer medium is compressed. In response to decreasing the metallic nanoparticle-to-metallic nanoparticle mean distance between metallic nanoparticles, the electrical resistance is decreased between the first and second electrodes through the elastic polymer medium.
    • 电压传感器设置有用于测量施加到传感器表面的压力的方法。 该方法提供一种电压传感器,其包括具有顶表面的密封室,第一电极,第二电极,弹性聚合物介质和分布在弹性聚合物介质中的金属纳米颗粒。 当传感器的顶表面响应于施加的压力而变形时,弹性聚合物介质被压缩。 响应于减少金属纳米粒子与金属纳米粒子之间的金属纳米粒子的平均距离,通过弹性聚合物介质在第一和第二电极之间的电阻降低。