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    • 2. 发明申请
    • MULTISPECTRAL PLASMONIC CRYSTAL SENSORS
    • 多层等离子体水晶传感器
    • US20080212102A1
    • 2008-09-04
    • US11782799
    • 2007-07-25
    • Ralph G. NuzzoJohn A. RogersNathan H. MackMatthew StewartViktor MalyarchukJimin Yao
    • Ralph G. NuzzoJohn A. RogersNathan H. MackMatthew StewartViktor MalyarchukJimin Yao
    • G01N21/55G02F1/00
    • G01N21/554
    • The present invention provides plasmonic crystals comprising three-dimensional and quasi comprising three-dimensional distributions of metallic or semiconducting films, including multi-layered crystal structures comprising nanostructured films and film arrays. Plasmonic crystals of the present invention include precisely registered and deterministically selected nonplanar crystal geometries and spatial distributions providing highly coupled, localized plasmonic responses in thin film elements and/or nanostructures of the crystal. Coupling of plasmonic responses provided by three-dimensional and quasi-three dimensional plasmonic crystal geometries and structures of the present invention generates enhanced local plasmonic field distributions useful for detecting small changes in the composition of an external dielectric environment proximate to a sensing surface of the plasmonic crystal. Plasmonic crystal structures of the present invention are also useful for providing highly localized excitation and/or imaging of fluorophores proximate to the crystal surface.
    • 本发明提供包括三维和准包括金属或半导体膜的三维分布的等离子体晶体,包括包含纳米结构膜和膜阵列的多层晶体结构。 本发明的等离子体晶体包括在晶体的薄膜元件和/或纳米结构中提供高度耦合的局部等离子体响应的精确对准和确定性选择的非平面晶体几何形状和空间分布。 通过本发明的三维和三维等离子体晶体几何结构和结构提供的等离子体激发响应的耦合产生增强的局部等离子体激元场分布,其可用于检测接近等离子体激元的感测表面的外部电介质环境的组成的小变化 水晶。 本发明的等离子体晶体结构也可用于提供接近晶体表面的荧光团的高度局部激发和/或成像。
    • 4. 发明授权
    • Multispectral plasmonic crystal sensors
    • 多光谱等离子体晶体传感器
    • US07705280B2
    • 2010-04-27
    • US11782799
    • 2007-07-25
    • Ralph G. NuzzoJohn A. RogersNathan H. MackMatthew StewartViktor MalyarchukJimin Yao
    • Ralph G. NuzzoJohn A. RogersNathan H. MackMatthew StewartViktor MalyarchukJimin Yao
    • H01L27/00
    • G01N21/554
    • The present invention provides plasmonic crystals comprising three-dimensional and quasi comprising three-dimensional distributions of metallic or semiconducting films, including multi-layered crystal structures comprising nanostructured films and film arrays. Plasmonic crystals of the present invention include precisely registered and deterministically selected nonplanar crystal geometries and spatial distributions providing highly coupled, localized plasmonic responses in thin film elements and/or nanostructures of the crystal. Coupling of plasmonic responses provided by three-dimensional and quasi-three dimensional plasmonic crystal geometries and structures of the present invention generates enhanced local plasmonic field distributions useful for detecting small changes in the composition of an external dielectric environment proximate to a sensing surface of the plasmonic crystal. Plasmonic crystal structures of the present invention are also useful for providing highly localized excitation and/or imaging of fluorophores proximate to the crystal surface.
    • 本发明提供包括三维和准包括金属或半导体膜的三维分布的等离子体晶体,包括包含纳米结构膜和膜阵列的多层晶体结构。 本发明的等离子体晶体包括在晶体的薄膜元件和/或纳米结构中提供高度耦合的局部等离子体响应的精确对准和确定性选择的非平面晶体几何形状和空间分布。 通过本发明的三维和三维等离子体晶体几何结构和结构提供的等离子体激发响应的耦合产生增强的局部等离子体激元场分布,其可用于检测接近等离子体激元的感测表面的外部电介质环境的组成的小变化 水晶。 本发明的等离子体晶体结构也可用于提供接近晶体表面的荧光团的高度局部激发和/或成像。