会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • PEPTIDE TEMPLATES FOR NANOPARTICLE SYNTHESIS OBTAINED THROUGH PCR-DRIVEN PHAGE DISPLAY METHOD
    • 通过PCR-DRIVEN PHAGE显示方法获得的纳米级合成肽肽模板
    • US20080176760A1
    • 2008-07-24
    • US12056857
    • 2008-03-27
    • Rajesh R. NaikMorley O. StoneDaniel C. Carter
    • Rajesh R. NaikMorley O. StoneDaniel C. Carter
    • C40B30/04C07K16/00C07H21/04
    • C12N15/1037B82Y30/00C07K7/08
    • A method is provided for identifying and isolating peptides capable of binding of inorganic materials such as silica, silver, germanium, cobalt, iron, or oxides thereof, or other materials on a nanometric scale such as carbon nanotubes, using a combinatorial phage display peptide library and a polymerase-chain reaction (PCR) step to obtain specific amino acids sequences. In the method of the invention, a combinatorial phage display library is used to isolate and select the desired binding peptides by a series of steps of target binding of phage with the nanometric material of interest, elution and purification of the bound phages, and amplification using PCR to determine the sequences of phages producing the desired binding peptides. The binding peptides of the invention are particularly advantageous in that they may be used as templates to guide the development of useful structures on a nanometric scale.
    • 提供了一种方法,用于使用组合噬菌体展示肽文库鉴定和分离能够结合无机材料如二氧化硅,银,锗,钴,铁或其氧化物或纳米级别的其它材料的肽,例如碳纳米管 和聚合酶链式反应(PCR)步骤,以获得特定的氨基酸序列。 在本发明的方法中,组合噬菌体展示文库用于通过目标结合噬菌体与感兴趣的纳米材料,洗脱和纯化结合的噬菌体的一系列步骤来分离和选择所需的结合肽,并使用 PCR以确定产生所需结合肽的噬菌体的序列。 本发明的结合肽是特别有利的,因为它们可以用作模板以指导在纳米尺度上开发有用的结构。
    • 2. 发明授权
    • Method and apparatus for use of thermally switching proteins in sensing and detecting devices
    • 用于在感测和检测装置中热切换蛋白质的方法和装置
    • US07193037B2
    • 2007-03-20
    • US10313010
    • 2002-12-06
    • Lawrence L. BrottRajesh R. NaikMorley O. StoneDaniel C. Carter
    • Lawrence L. BrottRajesh R. NaikMorley O. StoneDaniel C. Carter
    • A61K38/00
    • H01L51/428B82Y10/00G01J5/20G01N21/3563G01N25/72H01L27/305H01L27/307H01L51/0093H01L51/4206H01L51/4253Y02E10/549
    • An apparatus and method for detecting infrared radiation is provided which comprises a temperature-sensing helical coiled-coil protein such as TlpA, CC1, collagen or myosin, incorporated into an electrically conductive film or gel deposited onto an electrically conductive medium such as an electrode, means for recording changes in conductivity or resistance of the conductive film or gel caused by the presence of infrared radiation and the effect of the infrared radiation on the thermal-sensing protein, and means to analyze the changes in conductivity or resistance in the conductive film caused by the infrared radiation so as to determine if infrared radiation is present. By virtue of the present invention, a “biomimetic” infrared sensor is provided which can integrate a recombinantly produced thermally sensitive protein in a conductive polymer matrix, such as a film or gel, so as to provide for the first time a low-cost, lightweight, conformable, and even possibly disposable, infrared detecting device having high sensitivity and excellent dynamic range.
    • 提供了一种用于检测红外辐射的装置和方法,其包括温度感测螺旋卷曲螺旋蛋白如TlpA,CC1,胶原或肌球蛋白,结合到导电膜或凝胶中沉积到诸如电极的导电介质上, 用于记录由红外辐射的存在引起的导电膜或凝胶的电导率或电阻的变化以及红外辐射对热感测蛋白的影响的手段,以及分析导电膜中导电性或电阻变化的手段 通过红外辐射来确定是否存在红外辐射。 凭借本发明,提供了一种“仿生”红外传感器,其可以将重组产生的热敏蛋白整合到导电聚合物基质如膜或凝胶中,以便首次提供低成本, 重量轻,一致,甚至一次性的红外线检测装置具有高灵敏度和优异的动态范围。
    • 9. 发明授权
    • Chromium-doped zinc-nitro-antimony-gallium-tellurium infrared phosphors
    • 铬掺杂的锌 - 硝基锑镓碲红外荧光粉
    • US07976727B1
    • 2011-07-12
    • US12862869
    • 2010-08-25
    • Rajesh R. NaikLawrence L. BrottGeorge D. Jia
    • Rajesh R. NaikLawrence L. BrottGeorge D. Jia
    • C09K11/70C09K11/77
    • C09K11/883C09K11/623C09K11/7756
    • This patent covers infrared phosphorescent materials which exhibit extended persistence lifetimes and are composed of mixtures of the elements zinc, antimony, gallium, tellurium, oxygen and nitrogen, and are doped with varying amounts of chromium, neodymium, dysprosium, yttrium or thulium. A typical formula is given by Zn(1-n %-m %-l %)SbxGa2-xTezO4+2z-yNy: n % Cr3+, m % P, l % Q, where Zn is zinc, Sb is antimony, Ga is gallium, Te is tellurium, O is oxygen, N is nitrogen. Additionally, x (0 to 2) y (0 to 0.5) and z (0 to 1) are the molar concentration in the composition. Cr3+ is the doped chromium ion, P is a codopant and Q is a second codopant and n, m, l are the concentration respectively (m,m,l are from 0.1 to 10). An example is the material ZnSbGaTeO5.95N0.05:3% Cr3+, 1% Nd3+, which has an emission peak at 760 nm and a persistent time of over 20 hours (measured with Fluorolog-3 spectrometer with a PMT detector).
    • 该专利涉及具有延长的持续寿命并且由元素锌,锑,镓,碲,氧和氮的混合物组成的红外磷光材料,并且掺杂有不同量的铬,钕,镝,钇或。。 典型的配方由Zn(1-n%-m%-1%)SbxGa2-xTezO4 + 2z-yNy:n%Cr3 +,m%P,1%Q给出,其中Zn是锌,Sb是锑,Ga是 镓,Te是碲,O是氧,N是氮。 另外,x(0至2)y(0至0.5)和z(0至1)是组合物中的摩尔浓度。 Cr3 +是掺杂的铬离子,P是共掺杂物,Q是第二共轭体,n,m,l分别是浓度(m,m,l是从0.1到10)。 一个例子是材料ZnSbGaTeO5.95N0.05:3%Cr3 +,1%Nd3 +,其在760nm处具有发射峰,并且持续时间超过20小时(用具有PMT检测器的Fluorolog-3光谱仪测量)。