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公开(公告)号:US20130069120A1
公开(公告)日:2013-03-21
申请号:US13600385
申请日:2012-08-31
IPC分类号: G01N27/414 , H01L21/98
CPC分类号: G01N27/302 , G01N27/4148 , G01N27/4167 , G01N33/02 , G01N33/04 , G01N33/12 , H01L2224/48091 , H01L2924/1815 , Y10T29/49002 , H01L2924/00014
摘要: Disclosed is a pH sensor comprising a carrier (10) comprising a plurality of conductive tracks and an exposed conductive area (40) defining a reference electrode connected to one of said conductive tracks; a sensing device (30) mounted on the carrier and connected at least one other of said conductive tracks; an encapsulation (20) covering the carrier, said encapsulation comprising a first cavity (22) exposing a surface (32) of the sensing device and a second cavity (24) exposing the exposed conductive area, said second cavity comprising a reference electrode material (42) and an ion reservoir material (44) sharing at least one ion type with said reference electrode material, the reference electrode material being sandwiched between the exposed conductive area and the ion reservoir material. A method of manufacturing such a pH sensor is also disclosed.
摘要翻译: 公开了一种pH传感器,其包括包括多个导电轨道的载体(10)和限定连接到所述导电轨道之一的参考电极的暴露导电区域(40) 感测装置(30),其安装在所述载体上并且连接至少另一个所述导电轨道; 覆盖所述载体的封装(20),所述封装包括暴露所述感测装置的表面(32)的第一空腔(22)和暴露所述暴露的导电区域的第二空腔(24),所述第二空腔包括参考电极材料 42)和与所述参考电极材料共享至少一种离子型离子储存器材料(44),所述参考电极材料夹在所述暴露的导电区域和所述离子储存器材料之间。 还公开了制造这种pH传感器的方法。
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公开(公告)号:US20090297938A1
公开(公告)日:2009-12-03
申请号:US12474165
申请日:2009-05-28
申请人: Romano HOOFMAN , Aurelie Humbert , Matthias Merz , Youri Victorovitch Ponomarev , Remco Henricus Wilhelmus Pijnenburg , Gilberto Curatola
发明人: Romano HOOFMAN , Aurelie Humbert , Matthias Merz , Youri Victorovitch Ponomarev , Remco Henricus Wilhelmus Pijnenburg , Gilberto Curatola
CPC分类号: H01M6/40 , H01M4/70 , H01M6/18 , H01M6/188 , H01M10/0436 , H01M10/0562 , H01M10/0585 , Y10T29/49108
摘要: A device is provided that includes a battery layer on a substrate, where a first battery cell is formed in the battery layer. The first battery cell includes a first anode, a first cathode, and a first electrolyte arranged between the first anode and the first cathode, where the first anode, the first cathode, and the first electrolyte are arranged in the battery layer such that perpendicular projections onto the substrate of each of the first anode and the first cathode are non-overlapping. A method of manufacturing such device is also provided. A system is also provide that includes such device for supplying power to an electronic device.
摘要翻译: 提供了一种在基板上包括电池层的装置,其中第一电池单体形成在电池层中。 第一电池单元包括第一阳极,第一阴极和布置在第一阳极和第一阴极之间的第一电解质,其中第一阳极,第一阴极和第一电解质布置在电池层中,使得垂直突起 在第一阳极和第一阴极中的每一个的衬底上是不重叠的。 还提供了制造这种装置的方法。 还提供一种包括用于向电子设备供电的设备的系统。
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公开(公告)号:US20110217206A1
公开(公告)日:2011-09-08
申请号:US13043352
申请日:2011-03-08
申请人: Romano HOOFMAN , Gerard REUVERS , Franciscus Petrus WIDDERSHOVEN , Evelyne GRIDELET , Marcus Henricus van KLEEF
发明人: Romano HOOFMAN , Gerard REUVERS , Franciscus Petrus WIDDERSHOVEN , Evelyne GRIDELET , Marcus Henricus van KLEEF
CPC分类号: B01L3/502715 , B01L2200/12 , B01L2300/0645 , G01N27/3275 , Y10T29/49105
摘要: “Click-assembly” methods of assembling a sensor for sensing biologically-active molecules by measuring impedance changes, are disclosed, comprising supporting a bio-sensor on a carrier, the bio-sensor comprising an electronic component having at least one micro-electrode and at least one electrical contact, functionalizing the bio-sensor by physically or chemically coupling a bio-receptor molecule to each of the at least one micro-electrode, and subsequently assembling the bio-sensor with a micro-fluidic unit by means of a clamp which clamps the bio-sensor with the micro-fluidic unit, such that in use a fluid introduced into the micro-fluidic unit is able to contact the bio-receptor and is isolated from the electrical contact. The clamp may be a spring, and the method may avoid a requirement for sealing by chemical or thermal means and thereby avoid damaging the bio-receptor. Sensors which can be assembled according to such methods are also disclosed.
摘要翻译: 公开了通过测量阻抗变化来组装用于感测生物活性分子的传感器的“点击组装”方法,其包括在载体上支撑生物传感器,所述生物传感器包括具有至少一个微电极的电子部件和 至少一个电接触,通过将所述生物受体分子物理或化学耦合至所述至少一个微电极中的每一个来官能化所述生物传感器,以及随后通过夹具将所述生物传感器与微流体单元组装 其利用微流体单元夹持生物传感器,使得在使用中,引入微流体单元的流体能够接触生物接受体并与电接触物隔离。 夹具可以是弹簧,并且该方法可以避免通过化学或热方式对密封的要求,从而避免损坏生物受体。 还公开了可以根据这些方法组装的传感器。
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公开(公告)号:US20110293969A1
公开(公告)日:2011-12-01
申请号:US12953980
申请日:2010-11-24
申请人: Romano HOOFMAN , Coen TAK , Marc Andre de SAMBER
发明人: Romano HOOFMAN , Coen TAK , Marc Andre de SAMBER
CPC分类号: H01L23/49855 , B81B2201/0235 , B81B2207/015 , B81B2207/03 , B81C1/00246 , H01L23/145 , H01L23/58 , H01L24/16 , H01L24/48 , H01L2224/48 , H01L2924/00014 , H01L2924/12043 , H01L2924/14 , H01L2924/1461 , H01M10/0436 , H01M10/0562 , H01M10/46 , H01L2924/00 , H01L2224/45099 , H01L2224/45015 , H01L2924/207
摘要: Consistent with an example embodiment, there is an apparatus comprising a carrier, a laminated battery provided on a major surface of the carrier, and an integrated circuit. The laminated battery includes a bottom electrode layer, an electrolyte layer, and a top electrode layer. The integrated circuit is connected to the bottom electrode layer and the top electrode layer. The integrated circuit is surrounded by the laminated battery on the major surface of the carrier.
摘要翻译: 与示例性实施例一致,存在包括载体,设置在载体的主表面上的层叠电池和集成电路的装置。 叠层电池包括底电极层,电解质层和顶电极层。 集成电路连接到底电极层和顶电极层。 集成电路被载体的主表面上的层叠电池包围。
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