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    • 1. 发明申请
    • LUMINESCENT GOLD NANOPARTICLE FUNCTIONALIZED BY N-(4-AMINOBUTYL)-N-ETHYLISOLUMINOL, PREPARATION AND APPLICATION THEREOF
    • 由N-(4-氨基丁基)-N-乙基磺酰胺官能化的发光金纳米颗粒,其制备和应用
    • US20120329998A1
    • 2012-12-27
    • US13582434
    • 2010-07-08
    • Hua CuiDayong Tian
    • Hua CuiDayong Tian
    • C07F1/12C07H23/00C07K17/02C07K19/00B82Y40/00B82Y30/00
    • G01N33/54346G01N21/76G01N33/553G01N33/582
    • Provided is luminescent gold nanomaterial functionalized by N-(4-aminobutyl)-N-ethylisoluminol, methods of preparation and application thereof. The functionalized gold nanoparticle nanomaterial are formed by N-(4-aminobutyl)-N-ethylisoluminol bonding to the surface of the gold nanomaterial. The functionalized gold nanomaterial are prepared by directly reducing chloroauric acid with N-(4-aminobutyl)-N-ethylisoluminol, wherein N-(4-aminobutyl)-N-ethylisoluminol acts as reducer and stabilizer simultaneously. The preparation method is simple, fast and no need of special conditions. The preparation methods can be performed in a wide temperature range, for example, 15-35° C. The size and pattern of the functionalized gold nanomaterial can be specified by choosing the ratio of chloroauric acid to N-(4-aminobutyl)-N-ethylisoluminol. The obtained functionalized nano gold particles exhibit excellent chemiluminescence properties. Said functionalized gold nanomaterial can be combined with biomolecules to form biomolecular probe, which can be used for immunoassay, nucleic acid analysis, molecular imaging, sensor, etc., and has a broad application prospect in the field of clinical analysis biomedicine, food safety, and environment monitoring.
    • 提供由N-(4-氨基丁基)-N-乙基异豆酚醇功能化的发光金纳米材料,其制备和应用方法。 官能化的金纳米颗粒纳米材料由N-(4-氨基丁基)-N-乙基异豆胺醇键合到金纳米材料的表面。 功能化的金纳米材料通过用N-(4-氨基丁基)-N-乙基异豆酚直接还原氯金酸制备,其中N-(4-氨基丁基)-N-乙基异豆胺醇同时作为还原剂和稳定剂。 制备方法简单,快速,无需特殊条件。 制备方法可以在宽温度范围内进行,例如15-35℃。官能化金纳米材料的尺寸和图案可以通过选择氯金酸与N-(4-氨基丁基)-N - 乙基异豆酚。 所获得的官能化纳米金颗粒表现出优异的化学发光性能。 所述功能化金纳米材料可与生物分子结合形成生物分子探针,可用于免疫测定,核酸分析,分子成像,传感器等,在临床分析生物医药,食品安全, 和环境监测。
    • 6. 发明授权
    • Plugin architecture for extending polices
    • 扩展策略的插件架构
    • US07296235B2
    • 2007-11-13
    • US10269152
    • 2002-10-10
    • Shivaram BhatHua CuiPing LuoDilli Dorai Minnal ArumugamAravindan Ranganathan
    • Shivaram BhatHua CuiPing LuoDilli Dorai Minnal ArumugamAravindan Ranganathan
    • G06F3/00
    • G06F21/6218G06T11/001
    • An architecture for allowing extensibility to policies. The architecture has a policy component program that is able to evaluate and enforce polices. The architecture also has plugin modules for allowing a user to customize the polices. The policy component program is able to present interfaces to the user for customizing the polices. The policy component program is further able to integrate customized polices into a framework of the policy component program in response to user input that is based on the interfaces presented to the user. The presented interfaces may be for defining subjects in the policy program, defining conditions in the policy program, defining referrals in the policy program, defining resource names in the policy program, and defining how conflicts will be resolved in the policy program. The interfaces may be compliant with the JAVA programming language.
    • 允许扩展策略的架构。 该架构具有能够评估和执行策略的策略组件程序。 该架构还具有允许用户自定义策略的插件模块。 策略组件程序能够向用户呈现用于定制策略的界面。 策略组件程序还能够将定制策略集成到策略组件程序的框架中,以响应基于呈现给用户的界面的用户输入。 所呈现的接口可以用于定义策略程序中的主题,在策略程序中定义条件,在策略程序中定义转介,在策略程序中定义资源名称,以及定义策略程序中的冲突如何被解决。 接口可能符合JAVA编程语言。
    • 8. 发明授权
    • Luminescent gold nanomaterial functionalized by N-(4-aminobutyl)-N-ethylisoluminol, preparation and application thereof
    • 通过N-(4-氨基丁基)-N-乙基异豆酚官能化的发光金纳米材料,其制备和应用
    • US09410950B2
    • 2016-08-09
    • US13582434
    • 2010-07-08
    • Hua CuiDayong Tian
    • Hua CuiDayong Tian
    • G01N21/76G01N33/58G01N33/543G01N33/553
    • G01N33/54346G01N21/76G01N33/553G01N33/582
    • Provided is luminescent gold nanomaterial functionalized by N-(4-aminobutyl)-N-ethylisoluminol, methods of preparation and application thereof. The functionalized gold nanomaterial is formed by N-(4-aminobutyl)-N-ethylisoluminol bonding to the surface of the gold nanoparticle. The functionalized gold nanomaterial are prepared by directly reducing chloroauric acid with N-(4-aminobutyl)-N-ethylisoluminol, wherein N-(4-aminobutyl)-N-ethylisoluminol acts as reducer and stabilizer simultaneously. The preparation method is simple, fast and no need of special conditions. The preparation methods can be performed in a wide temperature range, for example, 15-35.degree. C. The size and pattern of the functionalized gold nanomaterial can be specified by choosing the ratio of chloroauric acid to N-(4-aminobutyl)-N-ethylisoluminol. The obtained functionalized gold nanomaterial exhibits excellent chemiluminescence properties. Said functionalized gold nanomaterial can be combined with biomolecules to form biomolecular probe, which can be used for immunoassay, nucleic acid analysis, molecular imaging, sensor, etc., and has a broad application prospect in the field of clinical analysis biomedicine, food safety, and environment monitoring.
    • 提供由N-(4-氨基丁基)-N-乙基异豆酚醇功能化的发光金纳米材料,其制备和应用方法。 官能化的金纳米材料由N-(4-氨基丁基)-N-乙基异豆胺醇键合到金纳米颗粒的表面。 通过用N-(4-氨基丁基)-N-乙基异豆酚直接还原氯金酸制备官能化金纳米材料,其中N-(4-氨基丁基)-N-乙基异豆酚醇同时作为还原剂和稳定剂。 制备方法简单,快速,无需特殊条件。 制备方法可以在宽的温度范围内进行,例如15-35℃。 C.功能化金纳米材料的尺寸和图案可以通过选择氯金酸与N-(4-氨基丁基)-N-乙基异豆酚的比例来规定。 所获得的官能化金纳米材料表现出优异的化学发光性能。 所述功能化金纳米材料可与生物分子结合形成生物分子探针,可用于免疫测定,核酸分析,分子成像,传感器等,在临床分析生物医药,食品安全, 和环境监测。