Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: 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.