公开(公告)号：WO0206828A8

公开(公告)日：2003-11-06

申请号：PCT/US0121964

申请日：2001-07-12

Applicant: USF FILTRATION & SEPARATIONS ,  HODGES ALASTAIR ,  CHATELIER RON ,  BECK THOMAS

Inventor： HODGES ALASTAIR ,  CHATELIER RON ,  BECK THOMAS

IPC: G01N33/483 ,  C12Q1/00 ,  G01N27/28 ,  G01N27/30 ,  G01N27/327 ,  G01N27/416 ,  G01N27/42 ,  G01N27/44 ,  G01N33/487 ,  G01N33/49 ,  G01N33/543 ,  G01N33/66 ,  G01N33/72 ,  G01N33/84

CPC classification number: C12Q1/004 ,  C12Q1/006 ,  G01N33/84

Abstract: The present invention relates to a device and method for measuring hemoglobin in a fluid sample. The device comprises a disposable electrochemical cell, such as a thin layer electrochemical cell 1, containing a reagent capable of being reduced by hemoglobin. A suitable fluid sample that may be analyzed according the present invention is whole blood. If the hemoglobin to be analyzed is present in red blood cells, a lysing agent may be added to the sample to release the hemoglobin prior to analysis.

Abstract translation: 本发明涉及一种用于测量流体样品中血红蛋白的装置和方法。 该装置包括一次性电化学电池，例如薄层电化学电池1，其含有能够被血红蛋白还原的试剂。 根据本发明可以分析的合适的流体样品是全血。 如果要分析的血红蛋白存在于红细胞中，则可以将裂解剂加入到样品中以在分析之前释放血红蛋白。

公开(公告)号：WO03018862A3

公开(公告)日：2003-06-26

申请号：PCT/DE0203074

申请日：2002-08-22

Applicant: BOSCH GMBH ROBERT ,  WALTER AG ,  BECK THOMAS ,  SCHATTKE ALEXANDER ,  HENKE SASCHA ,  SCHIER VEIT

Inventor： BECK THOMAS ,  SCHATTKE ALEXANDER ,  HENKE SASCHA ,  SCHIER VEIT

IPC: B23B51/00 ,  B23B27/14 ,  B23P15/28 ,  C23C14/06 ,  C23C14/34 ,  C23C14/35 ,  C23C16/30

CPC classification number: C23C14/354 ,  C23C14/06 ,  C23C14/352 ,  Y10T428/25 ,  Y10T428/252 ,  Y10T428/30

Abstract: The invention relates to a method for producing a nanostructured, in particular, ceramic-type functional coating (17) on a substrate (16). At least one plasma source (11, 12) generates a pulsed plasma (13, 14), by means of which a matrix phase (30) with at least one nanoscalar interstitial phase (31) embedded therein is deposited on the substrate (16), with the aid of the introduction of a material. Preferably, a plurality of temporally correlated or synchronised pulsed plasma sources (11, 12) is used. The invention also relates to a nanostructured functional coating (17), produced in particular according to said method, which is devoid of chlorine and/or sulphur and contains at least one metal and/or at least one element selected from the group comprising oxygen, hydrogen, nitrogen, carbon, helium, argon and neon.

Abstract translation: 它提出了一种用于制造纳米结构，在基板（16）上的特定的类陶瓷功能性涂层（17）的方法。 为此，用至少一个等离子体源（11，12）的脉冲等离子体（13，14）产生通过材料入口沉积与基底（16）上的基体相（30）和至少一个嵌入其中的纳米级掺入相（31） ， 多个时间优选相关的或者被一个同步（11，12）使用另一种脉冲等离子体源。 另外，纳米结构化的，特别是可以通过该方法生产的功能性涂层（17），提出了不含氯和/或硫的，和至少一种金属和/或选自氧，氢，氮，碳，氦中的至少一种元素 ，含有氩，氖。

公开(公告)号：WO2003024575A1

公开(公告)日：2003-03-27

申请号：PCT/AU2002/001272

申请日：2002-09-17

Applicant: US FILTER WASTEWATER GROUP, INC. ,  JOHNSON, Thomas, Warren ,  BECK, Thomas, William

Inventor： JOHNSON, Thomas, Warren ,  BECK, Thomas, William

IPC: B01D65/02

CPC classification number: B01D63/024 ,  B01D65/02 ,  B01D2321/04 ,  B01D2321/185

Abstract: A method of cleaning a membrane filtration module (5) is disclosed. The module (5) includes at least one or more membranes (7) located in a feed-containing vessel (6) and extending longitudinally between vertically spaced upper and lower headers (8, 9) into which the ends of the membranes (7) are potted. The lower header (9) is not required in all cases and the membranes (7) may be suspended vertically from the upper header (8) only. The membranes (7) have a permeable wall which is subjected to a filtration operation wherein feed containing contaminant matter is applied to one side of the membrane wall and filtrate is withdrawn from the other side of the membrane wall. One or both of the upper and lower headers (8, 9) have one or more openings (10) therein. The method includes the steps of: suspending the filtration operation; performing a cleaning process on the membrane wall to dislodge contaminant matter from the membrane wall into liquid surrounding the mem brane: performing a sweep of the feed-containing vessel (6) substantially parallel to the longitudinally extending membranes (7) to remove the liquid containing the disloged contaminant matter, at least in part, through the openings (10) in the header (8, 9) or, where only the upper header (8) is used, through an opening (12) in the module, and then recommencing the filtration operation.

Abstract translation: 公开了一种清洗膜过滤组件（5）的方法。 模块（5）包括位于含进料容器（6）中的至少一个或多个膜（7），并且在垂直间隔的上和下集管（8,9）之间纵向延伸，膜（7）的端部向其中延伸， 是盆栽。 在所有情况下不需要下部集管（9），并且膜（7）可以仅从上部集管（8）垂直悬挂。 膜（7）具有渗透壁，其进行过滤操作，其中将含有污染物质的进料施加到膜壁的一侧，并且滤液从膜壁的另一侧排出。 上集管和下集管（8,9）中的一个或两个在其中具有一个或多个开口（10）。 该方法包括以下步骤：暂停过滤操作; 在膜壁上执行清洁过程以将污染物质从膜壁移走到围绕膜的液体中：执行基本上平行于纵向延伸的膜（7）的含饲料容器（6）的扫描以除去含有 至少部分地通过集管（8,9）中的开口（10）或者仅使用上集管（8）通过模块中的开口（12），然后重新开始 过滤操作。

公开(公告)号：WO2003004725A2

公开(公告)日：2003-01-16

申请号：PCT/EP2002/006654

申请日：2002-06-17

Applicant: ATOTECH DEUTSCHLAND GMBH ,  BECK, Thomas ,  SCHREIER, Hans-Jürgen ,  LAMPRECHT, Sven ,  SCHÖDER, Rolf ,  MATEJAT, Kai-Jens

Inventor： BECK, Thomas ,  SCHREIER, Hans-Jürgen ,  LAMPRECHT, Sven ,  SCHÖDER, Rolf ,  MATEJAT, Kai-Jens

IPC: C23C18/00

CPC classification number: C23C18/1617

Abstract: The invention relates to a method of depositing a layer of metal and to a method of regenerating a solution containing metal ions in a high oxidation state. To regenerate tin ions consumed from a tin plating solution by metal deposition, it has been known in the art to carry the plating solution over metallic tin to cause tin (II) ions to form. However, the amount of tin contained in thus regenerated baths slowly and continuously increases. The solution to this problem is to utilize an electrolytic regeneration cell that is provided with at least one auxiliary cathode and with at least one auxiliary anode. Tin serving for regeneration is electrolytically deposited from the solution onto the at least one auxiliary cathode in the electrolytic regeneration cell. The solution is carried over the tin serving for regeneration in order to reduce formed tin (IV) ions to tin (II) ions.

Abstract translation: 本发明涉及沉积金属层的方法和一种再生含有高氧化态金属离子的溶液的方法。 为了通过金属沉积再生由锡电镀溶液消耗的锡离子，本领域已知将电镀溶液运送到金属锡上以形成锡（II）离子。 然而，这样再生的浴中所含的锡的量缓慢地并且连续地增加。 该问题的解决方案是利用设置有至少一个辅助阴极和至少一个辅助阳极的电解再生池。 用于再生的锡从溶液电解沉积到电解再生池中的至少一个辅助阴极上。 该溶液在用于再生的锡上进行，以便将形成的锡（IV）离子还原成锡（II）离子。

公开(公告)号：WO1996032635A1

公开(公告)日：1996-10-17

申请号：PCT/AU1996000210

申请日：1996-04-11

Applicant: MEMTEC AMERICA CORPORATION ,  HODGES, Alastair, McIndoe ,  JOHANSEN, Oddvar ,  BECK, Thomas, William

Inventor： MEMTEC AMERICA CORPORATION

IPC: G01N27/40

CPC classification number: B01D67/0086 ,  G01N27/30

Abstract: The present invention relates to a method for defining an area (4) of a layer on a porous substrate comprising compressing a volume of the substrate to produce a compressed region (8) which defines, or which in combination with an edge (7) of the substrate or of the layer defines, a boundary of the area and which substantially prevents the transport of material through or across its surface. The present invention also relates to an electrochemical sensing device comprising: a porous substrate; and an electrode (1) on one side of the substrate; wherein a region of the substrate is compressed to an extent which forms a barrier to migration of electrolyte within the substrate, the compressed region defining, or in combination with an edge of the substrate or the electrode defining, a zone on the electrode of predetermined area.

Abstract translation: 本发明涉及一种用于限定多孔基底上的层的区域（4）的方法，包括压缩一定体积的基底以产生压缩区域（8），该压缩区域（8）与边界（7） 衬底或层限定了该区域的边界，并且基本上防止材料通过其表面或穿过其表面。 本发明还涉及一种电化学感测装置，包括：多孔基材; 以及在所述基板的一侧上的电极（1） 其中所述衬底的区域被压缩到对所述衬底内的电解质迁移的阻挡的程度，所述压缩区限定或者与所述衬底或所述电极的边缘组合，限定所述电极上的预定区域 。

公开(公告)号：WO1995028634A1

公开(公告)日：1995-10-26

申请号：PCT/AU1995000207

申请日：1995-04-12

Applicant: MEMTEC LIMITED ,  DRUMMOND, Humphrey, John, Jardine ,  BECK, Thomas, William

Inventor： MEMTEC LIMITED

IPC: G01N27/30

CPC classification number: C12Q1/004 ,  C12Q1/001

Abstract: An electrochemical cell comprises a porous membrane (8) of electrically insulating composition, the membrane having pores (not illustrated) communicating from one side of the membrane to another, a working electrode (5) disposed on one side and a counter or pseudo-reference electrode (7) disposed on the other side. A target area (11) of one electrode is liquid permeable and extends over the surface of membrane (8) without blocking underlying pores of the membrane. Optional insulating layers (9, 10) cover the electrodes (5, 7) and an opening defines the target area (11). Preferably, the porous membrane is impregnated with reagents, for example GOD/Ferricyanide.

Abstract translation: 电化学电池包括电绝缘组合物的多孔膜（8），所述膜具有从膜的一侧连通到另一侧的孔（未示出），设置在一侧的工作电极（5）和计数器或伪参考 设置在另一侧的电极（7）。 一个电极的目标区域（11）是液体可渗透的并且在膜（8）的表面上延伸而不阻挡膜的下面的孔。 可选绝缘层（9,10）覆盖电极（5,7），开口限定目标区域（11）。 优选地，多孔膜用试剂浸渍，例如GOD /铁氰化物。

公开(公告)号：WO1991017204A1

公开(公告)日：1991-11-14

申请号：PCT/AU1991000198

申请日：1991-05-09

Applicant: MEMTEC LIMITED ,  BECK, Thomas, William ,  LEE, Matthew, Brian ,  GRANT, Richard, David ,  STREETON, Robert, John, William

Inventor： MEMTEC LIMITED

IPC: C08J09/28

CPC classification number: C08J9/28 ,  B01D67/0011 ,  B01D67/0018 ,  B01D67/0027 ,  B01D67/003 ,  B01D69/02 ,  B01D69/08 ,  B01D71/34 ,  B01D2323/08 ,  B01D2323/12 ,  C08J2327/16

Abstract: A method of making a porous polymeric material by heating a mixture comprising polyvinylidene fluoride and a solvent system initially comprising a first component that is a latent solvent for polyvinylidene fluoride and a second component that is a non-solvent for polyvinylidene fluoride wherein, at elevated temperature, polyvinylidene fluoride dissolves in the solven system to provide an optically clear solution. The solution is then rapidly cooled so that non-equilibrium liquid-liquid phase separation takes place to form a continuous polymer rich phase and a continuous polymer lean phase with the two phases being intermingled in the form of bicontinuous matrix of large interfacial area, and cooling is continued until the polymer rich phase solidifies. The polymer lean phase is removed from the solid polymeric material. A porous material so prepared is characterised by a lacey or filamentous structure consisting of a plurality of polymer strands (1) connected together at a number of locations (2) spaced apart along each strand.

Abstract translation: 一种通过加热包含聚偏二氟乙烯和溶剂系统的混合物制备多孔聚合材料的方法，该溶剂体系最初包含作为聚偏二氟乙烯的潜溶剂的第一组分和作为聚偏氟乙烯的非溶剂的第二组分，其中在高温下 ，聚偏二氟乙烯溶解在溶剂系统中以提供光学透明的溶液。 然后将溶液快速冷却，使得发生非平衡液 - 液相分离以形成连续聚合物富相和连续的聚合物贫相，其中两相以大界面积的双连续基体的形式混合，并且冷却 继续进行，直到聚合物富集相凝固。 从固体聚合物材料中除去聚合物贫相。 如此制备的多孔材料的特征在于由沿着每条链间隔开的多个位置（2）连接在一起的多个聚合物股线（1）组成的花边或丝状结构。