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    • 5. 发明申请
    • OZONE GENERATING ELECTROLYSIS CELL
    • 臭氧发生电解槽
    • WO2007072098A2
    • 2007-06-28
    • PCT/HU2006/000126
    • 2006-12-22
    • THALES NANOTECHNOLÓGIAI ZRT.SZALAY, DánielVARGA, NorbertBONCZ, FerencDARVAS, FerencKARANCSI, TamásGÖDÖRHÁZY, Lajos
    • SZALAY, DánielVARGA, NorbertBONCZ, FerencDARVAS, FerencKARANCSI, TamásGÖDÖRHÁZY, Lajos
    • C25B1/13C25B9/08C25B11/04
    • The ozone generating electrolysis cell (10) according to the invention has a negative electrode (13) and an ozone generating positive electrode (16) comprising a mixture of lead dioxide and polytetrafluoroethylene (PTFE). A proton conducting solid electrolytic membrane (15) is arranged between the negative and positive electrodes (13, 16). The ozone generating electrolysis cell (10) also comprises an electrically conducting, liquid and gas permeable first electrode support (17) in contact with a side of the positive electrode (16) located opposite to the membrane (15), wherein said side of the electrode support (17) has a surface covered with a platinum-containing layer. The positive electrode (16) is made of a mixture prepared by the high-pressure compression of lead dioxide grains of colloid size and PTFE filaments having a dimension of at most 1 mm. Furthermore, the negative electrode (13) is adjoined to a side of the membrane (15) located opposite to the positive electrode (16) by a given compressing force and is formed on a surface of a porous second electrode support (12).
    • 根据本发明的臭氧发生电解槽(10)具有负极(13)和包含二氧化铅和聚四氟乙烯(PTFE)的混合物的产生臭氧的正极(16)。 质子传导固体电解质膜(15)设置在负极和正极(13,16)之间。 臭氧发生电解槽(10)还包括与位于与膜(15)相对的正电极(16)的一侧接触的导电,液体和气体可透过的第一电极支撑件(17),其中 电极支撑件(17)具有被含铂层覆盖的表面。 正极(16)由通过高压压缩胶体尺寸的二氧化铅颗粒和尺寸至多为1mm的PTFE细丝制成的混合物制成。 此外,负极(13)通过给定的压缩力与位于与正极(16)相对的膜(15)的一侧相邻,并形成在多孔第二电极支撑体(12)的表面上。
    • 6. 发明申请
    • CHROMATOGRAPHY PURIFICATION SYSTEM
    • 色谱纯化系统
    • WO2006000840A1
    • 2006-01-05
    • PCT/HU2005/000068
    • 2005-06-27
    • COMGENEX RT.DARVAS, FerencGÖDÖRHÁZY, LajosKARANCSI, TamásSZALAY, DánielÜRGE, László
    • DARVAS, FerencGÖDÖRHÁZY, LajosKARANCSI, TamásSZALAY, DánielÜRGE, László
    • B01D15/08
    • G01N30/82
    • The chromatography purification system (10) for automated chromatography separation of a plurality of different components in a sample and collection the fraction of at least one target component comprises a fluid streaming unit (11), a chromatography column (12) for receiving a sample and separating the components of the sample, a sample injection valve (18) for injecting the sample, a detector (14) coupled to the chromatography column (12) for receiving the sample and outputting a signal indicating the presence of at least one component in the sample flowing through it, a waste reservoir (17), a fraction collector (16) for dispensing the collected fractions into fraction containers and a system controller (20) for controlling the operation of the fluid streaming unit (11) and the fraction collector (16). The system further comprises a selector (22) for receiving the sample from the detector (14), selecting a predetermined number of target components with a predetermined property from the at least one component of the sample, directing the fraction of the at least one selected target component to the fraction collector (16) and discharging the remaining part of the sample into the waste reservoir (17).
    • 用于自动色谱分离样品中多种不同组分并收集至少一种目标组分的级分的色谱纯化系统(10)包括流体流动单元(11),用于接收样品的色谱柱(12)和 分离样品的组分,用于注射样品的样品注入阀(18),耦合到色谱柱(12)的检测器(14),用于接收样品并输出指示存在至少一种组分的信号 流经其的样品,废液储存器(17),用于将收集的馏分分配到馏分容器中的馏分收集器(16)和用于控制流体流动单元(11)和馏分收集器 16)。 所述系统还包括用于从所述检测器(14)接收样品的选择器(22),从所述样品的所述至少一个组分中选择具有预定特性的预定数量的目标成分,引导所述至少一个选定的 将目标组分加入到馏分收集器(16)中并将剩余部分的样品排放到废物储存器(17)中。
    • 7. 发明申请
    • HYBRID CHIP FOR THE MINIATURIZATION OF CHEMICAL, BIOMEDICAL, AND BIOLOGICAL PROCESSES AND METHOD OF APPLICATION
    • 用于化学,生物医学和生物过程的微型化的混合芯片及其应用方法
    • WO2004012856A1
    • 2004-02-12
    • PCT/HU2003/000063
    • 2003-07-30
    • COMGENEX RT.DARVAS, FerencÜRGE, LászlóDORMÁN, GyörgyKARANCSI, TamásGÖDÖRHÁZY, LajosSZALAY, Dániel
    • DARVAS, FerencÜRGE, LászlóDORMÁN, GyörgyKARANCSI, TamásGÖDÖRHÁZY, LajosSZALAY, Dániel
    • B01J19/00
    • C40B50/08B01J19/0093B01J2219/00418B01J2219/00599B01J2219/00689B01J2219/00695B01J2219/007B01J2219/0072B01J2219/00822B01J2219/00871B01J2219/00986B01L3/5027B01L2200/14B01L2300/02C40B30/10C40B60/14
    • This invention involves a small hybrid sheet (chip), used to miniaturize chemical, biochemical, and biological processes, characterized by that it consists of mono or multilayer sheet (chip) comprising the following directly connected units: a) a unit used for synthesis and work-up of compounds and the transport of raw materials, reagents, and final products; b) a unit used for the analysis of compounds and transport of raw materials, reagents, and final products; c) a unit used for execution of biological assays of compounds and the transport of raw materials, reagents, and final products; and d) preferably an electronic unit, more preferably a semi conductor chip into which the following have been burnt: (i) the software source code of at least one computer program for the realization of a function algorithm between biological activity and the chemical structure of compounds; whose input is the chemical structure and biological activity of one or more compounds, and whose output is the chemical structure(s) of one or more further compounds likely to display the desired degree of biological activity, (ii) the software source code of a synthesis program whose input is the chemical formula(e) of one or more compounds obtained as the output of part (i), and whose output provides the laboratory synthesis protocols for these compounds (iii) the software source code of a control program whose input is the one or more laboratory synthesis protocols obtained as the output of the previous step (ii), and whose output provides the control program for the unit described in subsection a). (iv) and finally, preferably the software source code of a control program that controls the operation of the units described under subsections (a) through (d), including launch, shut down, and optimization of these units, preferably the software source code of a control program that controls the biological assay by means of a threshold to be attained during the assay. The small hybrid sheet (chip) may be applied to the production, analysis, and assay of biologically active compounds, and to the measurement of their metabolism, toxicity, and other adaptable biological interactions.
    • 本发明涉及用于使化学,生化和生物过程小型化的小型混合片(芯片),其特征在于它由包括以下直接连接的单元的单层或多层板(芯片)组成:a)用于合成和 化合物的处理以及原材料,试剂和最终产品的运输; b)用于分析化合物和原料,试剂和最终产品运输的单位; c)用于执行化合物的生物测定的单位和原料,试剂和最终产品的运输; 以及d)优选地,用于分析和控制的软件源代码已被烧录的电子单元。 小型杂交片(芯片)可用于生物活性化合物的生产,分析和测定,以及其代谢,毒性和其他适应性相互作用的测量。
    • 8. 发明申请
    • METHOD OF FORMING A SEALED CHANNEL OF A MICROFLUIDIC REACTOR AND A MICROFLUIDIC REACTOR COMPRISING SUCH CHANNEL
    • 形成微流体反应器的密封通道的方法和包含这种通道的微流体反应器
    • WO2007072099A2
    • 2007-06-28
    • PCT/HU2006/000127
    • 2006-12-22
    • THALES NANOTECHNOLÓGIAI ZRT.SZALAY, DánielVARGA, NorbertBONCZ, FerencDARVAS, FerencKARANCSI, TamásGÖDÖRHÁZY, Lajos
    • SZALAY, DánielVARGA, NorbertBONCZ, FerencDARVAS, FerencKARANCSI, TamásGÖDÖRHÁZY, Lajos
    • B81C1/00
    • B81C1/0046
    • In a method according to the invention for forming a sealed channel (125) in the surface of a sheet made of a material with certain extent of plasticity, the machining surface of a tool with a rolling machining surface is brought into contact with a first point of the channel (125) to be formed in the surface of the sheet constituting a reactor block. Next, said machining surface is pressed onto the surface of the sheet with a compressive force (F) required to achieve the depth of the channel (125) to be formed, whereby the plastic material is squeezed out and becomes raised from the sheet surface on the peripheries of the depression being formed. After this, while maintaining the compressive force (F), by displacing said machining surface along the centerline of the channel (125) over the sheet surface it is rolled from the first point of the channel (125) to be formed to a second point thereof, whereby the channel (125) is machined in the material of the sheet and sealing edges (127) are created on the peripheries of the channel (125) from the material squeezed out and become raised. After creating said sealing edges (127), a closing member bearing against the sealing edges (127) is arranged at the surface of the sheet provided with the channel (125) and the sealing edges (127), and then said closing member is pressed onto the sheet by a compressive force required to deform said sealing edges (127) and is fixed in the position obtained, whereby a sealed channel (125) running between the first and second points is formed within the reactor block.
    • 在根据本发明的用于在由具有一定塑性程度的材料制成的片材的表面中形成密封通道(125)的方法中,具有滚动加工表面的工具的加工表面 与通道(125)的第一点接触以形成在构成反应器块的片材的表面中。 接着,利用实现要形成的通道(125)的深度所需的压缩力(F)将所述加工表面压到片材的表面上,由此塑料材料被挤出并从片材表面升起 凹陷的周边正在形成。 之后,在保持压缩力(F)的同时,通过沿着通道(125)的中心线在片材表面上移动所述加工表面,它从要形成的通道(125)的第一点滚动到第二点 由此通道(125)在片材的材料中被机械加工,并且在通道(125)的周边上由挤出并升高的材料形成密封边缘(127)。 在形成所述密封边缘(127)之后,在设置有通道(125)和密封边缘(127)的片材的表面处布置抵靠密封边缘(127)的封闭构件,然后将所述封闭构件 通过使所述密封边缘(127)变形所需的压缩力将所述密封通道(125)固定在所述位置上,由此在所述反应器块内形成在所述第一和第二点之间延伸的密封通道(125)。