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
    • 2. 发明申请
    • TRANSIENT GRATING TIME RESOLVED LUMINESCENCE MEASUREMENTS
    • 瞬态光刻时间分辨光度测量
    • WO2015118481A1
    • 2015-08-13
    • PCT/IB2015/050884
    • 2015-02-05
    • VICTORIA LINK LTD
    • HODGKISS, Justin M.CHEN, Kai
    • G01B9/02G01B11/00G01J3/18
    • G01J1/4228G01J3/0232G01J3/2889G01J3/4406G01J2003/4424G01N21/636G01N21/6408G01N21/65G01N2201/061G01N2201/0696
    • A transient grating (TG) is used as an optical gating element with sub-picosecond time resolution for luminescence measurements from a photo-detector array. The transient grating is formed in a gate medium by one or more pulsed gate beams. For photoluminescence measurements such as photoluminescence spectroscopy or imaging, a source is excited by a pulsed excitation beam, and the pulsed gate beams are synchronized to the pulsed excitation beam with an adjustable delay between the excitation of the source and the formation of the TG. Moreover, a source or its spectra can be imaged at two different regions of the photo-detector array at two different times spaced in time by a selected duration of time with sub-picosecond resolution over a range of a nanosecond or more. A beam from the source is deflected to the different regions by changing the frequency or geometry of the pulsed gate beams.
    • 瞬态光栅(TG)被用作具有亚皮秒时间分辨率的来自光电检测器阵列的发光测量的光学门控元件。 瞬态光栅通过一个或多个脉冲栅极波束在栅极介质中形成。 对于诸如光致发光光谱或成像的光致发光测量,源通过脉冲激发光束激发,并且脉冲栅极光束与脉冲激发光束同步,在源的激发和TG的形成之间具有可调节的延迟。 此外,源或其光谱可以在光检测器阵列的两个不同的区域以两分之一的时间在一个纳秒或更多的范围内以亚皮秒分辨率的时间间隔被成像。 来自源极的光束通过改变脉冲栅极的频率或几何形状而偏转到不同的区域。
    • 4. 发明申请
    • NMR SPECTRA EXTRACTION METHOD
    • NMR谱提取方法
    • WO2008041866A3
    • 2008-05-22
    • PCT/NZ2007000287
    • 2007-10-03
    • VICTORIA LINK LTDCALLAGHAN PAUL TERENCEHALSE MEGHAN EILEEN
    • CALLAGHAN PAUL TERENCEHALSE MEGHAN EILEEN
    • G01R33/38G01R33/44G01R33/48G01R33/56
    • G01R33/4625G01R33/445G01R33/485G01R33/5615G01R33/5616G01R33/56563G01R33/58
    • The invention provides a method of extracting NMR spectra from a sample under investigation. The method comprises subjecting both the sample under investigation and a reference sample to an inhomogeneous static magnetic field, one or more RF pulses, and one or more applied magnetic field gradients to acquire NMR sub-sample signals from two or more regions of the sample under investigation and the reference sample respectively; deconvolving the NMR sub-sample signals acquired from regions of the sample under investigation with the NMR sub-sample signals acquired from corresponding regions of the reference sample to produce a deconvolved signal for each region; and summing together the deconvolved signals for each region to obtain the NMR spectra of the sample under investigation. The invention further provides related methods and nuclear magnetic resonance spectra extraction systems.
    • 本发明提供从被研究样品中提取NMR光谱的方法。 该方法包括将所研究的样品和参考样品两者都进行不均匀的静磁场,一个或多个RF脉冲以及一个或多个施加的磁场梯度,以从样品的两个或更多个区域获取NMR子样本信号 调查和参考样本分别; 使用从参考样本的相应区域获取的NMR子采样信号对从研究样品的区域获取的NMR子采样信号进行解卷积,以产生每个区域的去卷积信号; 并将每个区域的去卷积信号相加,以获得正在研究的样品的NMR光谱。 本发明还提供了相关方法和核磁共振谱提取系统。
    • 10. 发明申请
    • MICROSTRUCTURED SURFACES FOR ENHANCED PHASE CHANGE HEAT TRANSFER
    • 用于增强相变热传递的微结构表面
    • WO2017089960A1
    • 2017-06-01
    • PCT/IB2016/057042
    • 2016-11-22
    • VICTORIA LINK LTD
    • GOUWS, Gideon J.
    • F28F13/18B22F3/22B22F3/11
    • B22F3/11B22F3/22B22F7/04C23C24/08F28D15/0233F28D15/046F28F13/187F28F2255/18
    • A thermally conductive substrate has formed thereon a microstructured surface layer of sintered metal surfaced nanoparticles providing a hierarchical void structure for facilitating two-phase heat transfer. The hierarchical void structure includes small voids smaller than one micron, large voids larger than the small voids; and elongated intermediate size voids forming channels between walls of the particles. The microstructure can be made by making a suspension of the nanoparticles solvent comprising a binder material, coating the substrate with the suspension to form a surface layer on the substrate, and then cooling the coated substrate below a freezing point of the solvent to induce segregation between the particles and the frozen solvent, and then removing the frozen solvent from the surface layer, and then heating the coated substrate to sinter the particles together.
    • 导热基底上形成有烧结金属表面纳米颗粒的微结构化表面层,其提供用于促进两相热传递的分层空隙结构。 分层空隙结构包括小于1微米的小空隙,大空隙大于小空隙; 和细长的中间尺寸空隙,形成颗粒壁之间的通道。 可以通过制备包含粘合剂材料的纳米颗粒溶剂的悬浮液,用悬浮液涂覆基底以在基底上形成表面层,然后将涂覆的基底冷却至溶剂的冰点以下以诱导分离 颗粒和冷冻溶剂,然后从表面层中除去冷冻溶剂,然后加热涂覆的基材以将颗粒一起烧结。