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公开(公告)号:US20080245970A1
公开(公告)日:2008-10-09
申请号:US12079334
申请日:2008-03-25
申请人: Christoph Fattinger , Peter Berndt
发明人: Christoph Fattinger , Peter Berndt
IPC分类号: G01N21/01
CPC分类号: G01N1/28 , B01L3/0255 , B01L3/5023 , B01L3/5025 , B01L3/502753 , B01L3/5085 , B01L2300/069 , B01L2300/0819 , G01N2001/282 , G01N2001/2826
摘要: A sorption micro-array (1) for sorbing a substance off an assay sample comprises a support (11) and a plurality of sorption elements (14). The plurality of sorption elements (14) is arranged in a well defined geometry in connection with the support (11), wherein the distance between each sorption element (14) and its adjacent sorption element (14) is predefined. Since all of the sorption elements (14) are arranged at a well defined location of the sorption micro-array (1), e.g. in a row with well defined distances from each other, the output of an analysis of substances sorbed by each of the sorption elements (14) can exactly be allocated to a well defined location of an assay sample from which the substances have been sorbed. Like this, it is possible to provide an exact chemical output image of the micro-distribution of the substances of the assay sample. The sorption micro-array according to the invention allows a gentle fluidic pick up of substances essentially without impairing the substances wherein the location of the pick up on the assay sample is well defined.
摘要翻译: 用于从测定样品上吸附物质的吸附微阵列(1)包括支撑体(11)和多个吸附元件(14)。 多个吸附元件(14)以与支撑件(11)连接的良好限定的几何形状布置,其中每个吸附元件(14)与其相邻的吸附元件(14)之间的距离是预定义的。 由于所有吸附元件(14)都布置在吸附微阵列(1)的明确定义的位置,例如, 在彼此具有良好限定的距离的情况下,由每个吸附元件(14)吸收的物质的分析的输出可以精确地分配给已经从其吸收的物质的测定样品的明确定义的位置。 像这样,可以提供测定样品的物质的微量分布的精确化学输出图像。 根据本发明的吸附微阵列允许温和地流体吸收物质,基本上不损害物质,其中检测样品上的拾取位置被很好地限定。
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公开(公告)号:US08192697B2
公开(公告)日:2012-06-05
申请号:US12079334
申请日:2008-03-25
申请人: Christoph Fattinger , Peter Berndt
发明人: Christoph Fattinger , Peter Berndt
CPC分类号: G01N1/28 , B01L3/0255 , B01L3/5023 , B01L3/5025 , B01L3/502753 , B01L3/5085 , B01L2300/069 , B01L2300/0819 , G01N2001/282 , G01N2001/2826
摘要: A sorption micro-array (1) for sorbing a substance off an assay sample comprises a support (11) and a plurality of sorption elements (14). The plurality of sorption elements (14) is arranged in a well defined geometry in connection with the support (11), wherein the distance between each sorption element (14) and its adjacent sorption element (14) is predefined. Since all of the sorption elements (14) are arranged at a well defined location of the sorption micro-array (1), e.g. in a row with well defined distances from each other, the output of an analysis of substances sorbed by each of the sorption elements (14) can exactly be allocated to a well defined location of an assay sample from which the substances have been sorbed. Like this, it is possible to provide an exact chemical output image of the micro-distribution of the substances of the assay sample. The sorption micro-array according to the invention allows a gentle fluidic pick up of substances essentially without impairing the substances wherein the location of the pick up on the assay sample is well defined.
摘要翻译: 用于从测定样品上吸附物质的吸附微阵列(1)包括支撑体(11)和多个吸附元件(14)。 多个吸附元件(14)以与支撑件(11)连接的良好限定的几何形状布置,其中每个吸附元件(14)与其相邻的吸附元件(14)之间的距离是预定义的。 由于所有吸附元件(14)都布置在吸附微阵列(1)的明确定义的位置,例如, 在彼此具有良好限定的距离的情况下,由每个吸附元件(14)吸收的物质的分析的输出可以精确地分配给已经从其吸收的物质的测定样品的明确定义的位置。 像这样,可以提供测定样品的物质的微量分布的精确化学输出图像。 根据本发明的吸附微阵列允许温和地流体吸收物质,基本上不损害物质,其中检测样品上的拾取位置被很好地限定。
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公开(公告)号:US07857575B2
公开(公告)日:2010-12-28
申请号:US12079756
申请日:2008-03-27
CPC分类号: G01N35/028 , G01N35/0099 , G01N2035/0425
摘要: A stacker (1) for storing a plurality of microplates each having a top surface side and a bottom surface side opposed to the top surface side, comprises a housing and a removal gate (13) for removing a microplate of the plurality of microplates out of the housing. The stacker (1) is arranged to accommodate the plurality of microplates inside the housing such that the top surface side of one microplate of the plurality of microplates abuts on the bottom surface side of an adjacent microplate of the plurality of microplates and such that the housing adjoins to the plurality of microplates. Using such a stacker 1, the plurality of microplates can be arranged and stored in a compact manner wherein the single microplates of the plurality of microplates can still selectively and efficiently be accessed. Further, due to the controlled access to the plurality of microplates being arranged inside the housing of the described stacker 1 via the removal gate 13, icing of the microplates can be minimized when the stacker is cooled for long term storage of samples arranged inside the microplates.
摘要翻译: 一种用于存储多个微板的堆叠器(1),每个微板具有与顶表面侧相对的顶表面侧和底表面侧,包括壳体和移除栅极(13),用于将多个微孔板中的微孔板从 住房。 堆叠器(1)被布置成在壳体内容纳多个微孔板,使得多个微孔板中的一个微孔板的顶表面侧邻接在多个微孔板的相邻微孔板的底表面侧上, 邻接多个微孔板。 使用这样的堆叠器1,可以以紧凑的方式布置和存储多个微孔板,其中多个微孔板的单个微孔板仍然可以选择性地和有效地被访问。 此外,由于经由去除浇口13将所述多个微孔板的控制进入布置在所述堆叠器1的壳体内部,所以当堆积器被冷却以长期储存设置在微孔板内的样品时,微板的结冰可以最小化 。
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公开(公告)号:US20080260511A1
公开(公告)日:2008-10-23
申请号:US12079756
申请日:2008-03-27
CPC分类号: G01N35/028 , G01N35/0099 , G01N2035/0425
摘要: A stacker (1) for storing a plurality of microplates each having a top surface side and a bottom surface side opposed to the top surface side, comprises a housing and a removal gate (13) for removing a microplate of the plurality of microplates out of the housing. The stacker (1) is arranged to accommodate the plurality of microplates inside the housing such that the top surface side of one microplate of the plurality of microplates abuts on the bottom surface side of an adjacent microplate of the plurality of microplates and such that the housing adjoins to the plurality of microplates. Using such a stacker 1, the plurality of microplates can be arranged and stored in a compact manner wherein the single microplates of the plurality of microplates can still selectively and efficiently be accessed. Further, due to the controlled access to the plurality of microplates being arranged inside the housing of the described stacker 1 via the removal gate 13, icing of the microplates can be minimized when the stacker is cooled for long term storage of samples arranged inside the microplates.
摘要翻译: 一种用于存储多个微板的堆叠器(1),每个微板具有与顶表面侧相对的顶表面侧和底表面侧,包括壳体和移除栅极(13),用于将多个微孔板中的微孔板从 住房。 堆叠器(1)被布置成在壳体内容纳多个微孔板,使得多个微孔板中的一个微孔板的顶表面侧邻接在多个微孔板的相邻微孔板的底表面侧上, 邻接多个微孔板。 使用这样的堆叠器1,可以以紧凑的方式布置和存储多个微孔板,其中多个微孔板的单个微孔板仍然可以选择性地和有效地被访问。 此外,由于经由去除浇口13将所述多个微孔板的控制进入布置在所述堆叠器1的壳体内部,所以当堆积器被冷却以长期储存设置在微孔板内的样品时,微板的结冰可以最小化 。
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