Optical Nanosensors Comprising Photoluminescent Nanostructures
    2.
    发明申请
    Optical Nanosensors Comprising Photoluminescent Nanostructures 有权
    包含光致发光纳米结构的光学纳米传感器

    公开(公告)号:US20110045523A1

    公开(公告)日:2011-02-24

    申请号:US12860752

    申请日:2010-08-20

    摘要: Systems and methods related to optical nanosensors comprising photoluminescent nanostructures are generally described. Generally, the nanosensors comprise a photoluminescent nanostructure and a polymer that interacts with the photoluminescent nanostructure. In some cases, the interaction between the polymer and the nanostructure can be non-covalent (e.g., via van der Waals interactions). The nanosensors comprising a polymer and a photoluminescent nanostructure may be particularly useful in determining the presence and/or concentration of relatively small molecules, in some embodiments. In addition, in some instances the nanosensors may be capable of determining relatively low concentrations of analytes, in some cases determining as little as a single molecule. In some embodiments, the interaction between the analyte and the nanosensor (e.g., between the analyte and the photoluminescent nanostructure) can be reversible, which may allow, for example, for the reuse of a nanosensor after it has been exposed to an analyte.

    摘要翻译: 通常描述与包含光致发光纳米结构的光学纳米传感器有关的系统和方法。 通常,纳米传感器包含光致发光纳米结构和与光致发光纳米结构相互作用的聚合物。 在一些情况下,聚合物和纳米结构之间的相互作用可以是非共价的(例如,通过范德华相互作用)。 在一些实施方案中,包含聚合物和光致发光纳米结构的纳米传感器可以特别用于确定相对较小分子的存在和/或浓度。 此外,在一些情况下,纳米传感器可能能够确定相对低浓度的分析物,在某些情况下确定与单个分子一样少。 在一些实施方案中,分析物和纳米传感器之间的相互作用(例如,分析物和光致发光纳米结构之间)之间的相互作用可以是可逆的,这可以允许例如纳米传感器暴露于分析物之后再利用。

    Optical nanosensors comprising photoluminescent nanostructures
    3.
    发明授权
    Optical nanosensors comprising photoluminescent nanostructures 有权
    包含光致发光纳米结构的光学纳米传感器

    公开(公告)号:US08486709B2

    公开(公告)日:2013-07-16

    申请号:US12860752

    申请日:2010-08-20

    IPC分类号: G01N33/487 G01N21/76

    摘要: Systems and methods related to optical nanosensors comprising photoluminescent nanostructures are generally described. Generally, the nanosensors comprise a photoluminescent nanostructure and a polymer that interacts with the photoluminescent nanostructure. In some cases, the interaction between the polymer and the nanostructure can be non-covalent (e.g., via van der Waals interactions). The nanosensors comprising a polymer and a photoluminescent nanostructure may be particularly useful in determining the presence and/or concentration of relatively small molecules, in some embodiments. In addition, in some instances the nanosensors may be capable of determining relatively low concentrations of analytes, in some cases determining as little as a single molecule. In some embodiments, the interaction between the analyte and the nanosensor (e.g., between the analyte and the photoluminescent nanostructure) can be reversible, which may allow, for example, for the reuse of a nanosensor after it has been exposed to an analyte.

    摘要翻译: 通常描述与包含光致发光纳米结构的光学纳米传感器有关的系统和方法。 通常,纳米传感器包含光致发光纳米结构和与光致发光纳米结构相互作用的聚合物。 在一些情况下,聚合物和纳米结构之间的相互作用可以是非共价的(例如,通过范德华相互作用)。 在一些实施方案中,包含聚合物和光致发光纳米结构的纳米传感器可以特别用于确定相对较小分子的存在和/或浓度。 此外,在一些情况下,纳米传感器可能能够确定相对低浓度的分析物,在某些情况下确定与单个分子一样少。 在一些实施方案中,分析物和纳米传感器之间的相互作用(例如,分析物和光致发光纳米结构之间)之间的相互作用可以是可逆的,这可以允许例如纳米传感器暴露于分析物之后再利用。

    Methods of designing semiconductor devices and methods of modifying layouts of semiconductor devices
    8.
    发明授权
    Methods of designing semiconductor devices and methods of modifying layouts of semiconductor devices 失效
    设计半导体器件的方法和修改半导体器件布局的方法

    公开(公告)号:US08621399B2

    公开(公告)日:2013-12-31

    申请号:US13458516

    申请日:2012-04-27

    IPC分类号: G06F17/50

    摘要: In a method of designing a semiconductor device, a transistor included in a layout of the semiconductor device may be selected. A biasing data may be set for changing a characteristic of the selected transistor. A design rule check (DRC) process for the layout of the semiconductor device may be performed after ignoring the biasing data. An optical proximity correction (OPC) process for the layout of the semiconductor device may be performed based on the biasing data.

    摘要翻译: 在设计半导体器件的方法中,可以选择包括在半导体器件的布局中的晶体管。 可以设置偏置数据以改变所选择的晶体管的特性。 可以在忽略偏置数据之后执行用于半导体器件的布局的设计规则检查(DRC)处理。 可以基于偏置数据执行用于半导体器件的布局的光学邻近校正(OPC)处理。

    Patches for teeth whitening
    9.
    发明授权
    Patches for teeth whitening 有权
    修补牙齿美白

    公开(公告)号:US07862802B2

    公开(公告)日:2011-01-04

    申请号:US10915283

    申请日:2004-08-10

    IPC分类号: A61K8/00 A61K8/22

    摘要: The present invention relates to a dry type tooth whitening patch comprising peroxide as a tooth whitening agent. In particular, disclosed is a dry type tooth whitening patch in which a peroxide is contained, as a teeth whitening agent, in a matrix type adhesive layer. The adhesive layer includes, as a base polymer thereof, a hydrophilic glass polymer which provides a strong adhesion to teeth while releasing the tooth whitening agent when hydrated on the enamel layers of teeth in the moist oral cavity. The dry type patch according to the present invention is convenient in use, as compared to wet type patches. Further, it exhibits a superior adhesion while being maintained in a state attached to the teeth for a lengthened period of time so as to assure an enough contact time between the whitening agent in the patch and stains on the teeth, thereby giving a sufficient whitening effect.

    摘要翻译: 本发明涉及含有过氧化物作为牙齿增白剂的干式牙齿增白贴剂。 特别地,公开了在基质型粘合剂层中含有作为牙齿增白剂的过氧化物的干式牙齿增白贴剂。 粘合剂层包括作为其基础聚合物的亲水性玻璃聚合物,其在湿润口腔中的牙齿的牙釉质层上水合时释放牙齿增白剂,同时提供对牙齿的强粘附性。 与湿式贴剂相比,本发明的干型贴剂使用方便。 此外,它表现出优异的粘附性,同时保持在附着于牙齿的状态下延长一段时间,以确保贴剂中的增白剂和牙齿上的污渍之间的足够的接触时间,从而产生足够的美白效果 。

    Surface enhanced raman scattering nano-tagging particle and method for preparing thereof
    10.
    发明申请
    Surface enhanced raman scattering nano-tagging particle and method for preparing thereof 有权
    表面增强拉曼散射纳米标记颗粒及其制备方法

    公开(公告)号:US20100321683A1

    公开(公告)日:2010-12-23

    申请号:US12308505

    申请日:2006-09-29

    IPC分类号: G01J3/44

    CPC分类号: G01N21/658 B82Y15/00

    摘要: There is provided a method for manufacturing a surface enhanced Raman scattering nano-tagging particle, the method including the steps of: introducing silver nanoparticles on the surface of a silica core particle; immobilizing tagging materials and silica shell precursors on the silver nanoparticles; and forming a silica shell surrounding the silica core particle to which the tagging materials and the silica shell precursor are immobilized.

    摘要翻译: 提供了一种制造表面增强拉曼散射纳米标记颗粒的方法,所述方法包括以下步骤:在二氧化硅核颗粒的表面上引入银纳米颗粒; 将标记材料和二氧化硅壳前体固定在银纳米颗粒上; 并且形成围绕二氧化硅核心颗粒的二氧化硅壳,所述标记材料和二氧化硅壳前体被固定在该二氧化硅芯颗粒上。