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    • 3. 发明申请
    • FREEZE DRYING OF TARGET SUBSTANCES
    • 冷冻干燥目标物质
    • WO2008146005A2
    • 2008-12-04
    • PCT/GB2008001835
    • 2008-05-30
    • OXFORD BIOSENSORS LTDBROUGHALL JOHN MORTONWEDGE CHARLES RICHARDMUNRO CHARLES
    • BROUGHALL JOHN MORTONWEDGE CHARLES RICHARDMUNRO CHARLES
    • F26B5/06
    • F26B5/06
    • In a process for freeze drying a target substance, the target substance is carried by a carrier, which is passed into a freeze chamber to reduce the temperature of the target substance, and then on to a dryer chamber. Vacuum/reduced pressure is applied during the process, during a final portion of the freeze process when the target substance and carrier are present in the freeze chamber; and/or when the target substance and carrier are transferred from the freeze chamber to the dryer chamber. Vacuum/reduced pressure is also applied when the target substance and carrier are present in the dryer chamber. The process enables the freezing process to commence at temperatures close to the collapse temperature of the target substance and to maintain that temperature while compensating for evaporative cooling, thus giving the fastest and most efficient freeze drying cycle, resulting in a slower cooling rate producing structures that are optimal for use.
    • 在目标物质的冷冻干燥过程中,目标物质由载体进行运送,该载体进入冷冻室以降低目标物质的温度,然后进入干燥室。 在该过程中,当目标物质和载体存在于冷冻室中时,在冷冻过程的最后部分期间施加真空/减压; 和/或当目标物质和载体从冷冻室转移到干燥室时。 当目标物质和载体存在于干燥室中时,也施加真空/减压。 该方法使得冷冻过程能够在接近目标物质的塌陷温度的温度下开始,并且在补偿蒸发冷却的同时保持该温度,从而给出最快和最有效的冷冻干燥循环,导致较慢的冷却速率产生结构, 是最佳的使用。
    • 5. 发明申请
    • FREEZE DRYING OF TARGET SUBSTANCES
    • 冷冻干燥目标物质
    • WO2007066132A1
    • 2007-06-14
    • PCT/GB2006/004600
    • 2006-12-08
    • OXFORD BIOSENSORS LIMITEDBROUGHALL, John, MortonWEDGE, Charles, RichardMONROE, Charles
    • BROUGHALL, John, MortonWEDGE, Charles, RichardMONROE, Charles
    • F26B5/06
    • F26B5/06
    • A target substance (8) is subject to a freeze drying process in which the substance is first passed into a freeze chamber (31) to reduce the temperature of the substance, and then passed into a separate vacuum chamber (32) in which a vacuum is applied to promote drying of the target substance. Because the carrier (10) and target substance (8) is moved from a freeze chamber (31) to a separate vacuum chamber (32) the environment can be more closely controlled and the cycling of freezing to drying can be more rapid. In this way the carrier (10) and target substance (8) is subject to the full temperature cycling without the surrounding chamber and apparatus being subject to the full cycle. This reduces time and energy costs. The technique is particularly suited to manufacturing biosensors using freeze dried reagents.
    • 目标物质(8)经受冷冻干燥处理,其中物质首先进入冷冻室(31)以降低物质的温度,然后进入单独的真空室(32),其中真空 用于促进目标物质的干燥。 因为载体(10)和目标物质(8)从冷冻室(31)移动到单独的真空室(32),所以可以更加严格地控制环境,并且可以更快速地进行冷冻循环。 以这种方式,载体(10)和目标物质(8)经受全温循环,而周围的室和装置不受整个循环的影响。 这减少了时间和能源成本。 该技术特别适用于使用冷冻干燥试剂制造生物传感器。
    • 7. 发明申请
    • ELECTROCHEMICAL SENSING METHOD
    • 电化学传感方法
    • WO2006000829A3
    • 2006-03-23
    • PCT/GB2005002558
    • 2005-06-29
    • OXFORD BIOSENSORS LTDHYLAND MARKBROUGHALL JOHN MORTONBUTLER RONALD NEIL
    • HYLAND MARKBROUGHALL JOHN MORTONBUTLER RONALD NEIL
    • G01N27/30C12Q1/00
    • C12Q1/001G01N27/3272Y10T29/49108
    • A method of confining an electroactive substance (7) within an electrochemical cell in the form of a receptacle, said method comprising: (a) providing an electrochemical cell in the form of a receptacle, the receptacle having a first open part (3) to allow entry of a sample into the receptacle, and a second open part to allow escape of air displaced by the entering sample, the electrochemical cell having a working electrode (5) 1 and a counter electrode (6); (b) providing an electroactive substance (7), which substance is contained within the receptacle; (c) providing a permeable or semi-permeable membrane (4), comprising one or more layers, covering the first open part of the receptacle; and (d) inserting the sample into the receptacle through the membrane, such that (1) the electroactive substance and (2) the sample, are in contact with each other and with.-said working electrode; wherein the electroactive is confined within the receptacle during step (d). Preferably, the method additionally involves electrochemically testing a sample, by applying a voltage across the cell and measuring the resulting electrochemical response.
    • 将电活性物质(7)限制在容器形式的电化学电池内的方法,所述方法包括:(a)提供呈容器形式的电化学电池,所述容器具有第一开口部分(3)至 允许样品进入容器,以及第二开放部分,以允许由进入的样品排出的空气逸出,所述电化学电池具有工作电极(5)1和对电极(6); (b)提供电活性物质(7),该物质包含在容器内; (c)提供覆盖容器的第一开放部分的可渗透或半透膜(4),包括一层或多层; 和(d)通过膜将样品插入容器中,使得(1)电活性物质和(2)样品彼此接触并与所述工作电极接触; 其中在步骤(d)期间电活性被限制在容器内。 优选地,该方法还涉及通过在电池上施加电压并测量所得到的电化学响应来电化学测试样品。
    • 8. 发明申请
    • BAITFISH HOLDER FISHING JIG
    • 比利时渔船渔船
    • WO2007062449A1
    • 2007-06-07
    • PCT/AU2006/001588
    • 2006-10-25
    • CALDERWOOD, John, Morton
    • CALDERWOOD, John, Morton
    • A01K83/00A01K83/06
    • A01K83/06
    • A fishing jig able to hold a baitfish, the jig including a primary shaft having a fishing line attachment end and a bifurcated free end, the free end supporting opposed hook assemblies in a manner such that each hook assembly is offset from the primary shaft. The primary shaft is preferably long enough for the jig to be able to skewer a baitfish, to thereby hold the baitfish generally centrally, with the attachment end projecting out of the baitfish at or near its head and the bifurcated free end (and opposed hook assemblies) projecting out of the baitfish at or near its tail.
    • 一种钓鱼夹具,其能够容纳饵料,所述夹具包括具有钓线附接端和分叉自由端的主轴,所述自由端以相对于每个钩组件偏离所述主轴的方式支撑相对的钩组件。 主轴优选地足够长以使夹具能够串入饵料,从而将饵料大致居中地保持,其中附接端在其头部处或其附近伸出饵料,并且分叉的自由端(和相对的钩组件 )从其尾部或其附近的饵料投射出来。
    • 10. 发明申请
    • ELECTROCHEMICAL SENSING METHOD
    • 电化学传感方法
    • WO2006000829A2
    • 2006-01-05
    • PCT/GB2005/002558
    • 2005-06-29
    • OXFORD BIOSENSORS LIMITEDHYLAND, MarkBROUGHALL, John, MortonBUTLER, Ronald, Neil
    • HYLAND, MarkBROUGHALL, John, MortonBUTLER, Ronald, Neil
    • G01N27/26
    • C12Q1/001G01N27/3272Y10T29/49108
    • A method of confining an electroactive substance within an electrochemical cell in the form of a receptacle, said method comprising: (a) providing an electrochemical cell in the form of a receptacle, the receptacle having a first open part to allow entry of a sample into the receptacle, and a second open part to allow escape of air displaced by the entering sample, the electrochemical cell having a working electrode and a counter electrode; (b) providing an electroactive substance, which substance is contained within the receptacle; (c) providing a permeable or semi-permeable membrane, comprising one or more layers, covering the first open part of the receptacle; and (d) inserting the sample into the receptacle through the membrane, such that (1) the electroactive substance and (2) the sample, are in contact with each other and with said working electrode; wherein the electroactive substance is confined within the receptacle during step (d). Preferably, the method additionally involves electrochemically testing a sample, by applying a voltage across the cell and measuring the resulting electrochemical response.
    • 将电活性物质限制在容器形式的电化学电池内的方法,所述方法包括:(a)提供呈容器形式的电化学电池,所述容器具有第一开放部分以允许样品进入 所述容器和第二开放部分,以允许由所述进入的样品排出的空气逸出,所述电化学电池具有工作电极和对电极; (b)提供电活性物质,该物质包含在容器内; (c)提供覆盖容器的第一开放部分的可渗透或半透膜,包括一层或多层; 和(d)通过膜将样品插入到容器中,使得(1)电活性物质和(2)样品彼此接触并与所述工作电极接触; 其中在步骤(d)期间电活性物质被限制在容器内。 优选地,该方法还涉及通过在电池上施加电压并测量所得到的电化学响应来电化学测试样品。