Abstract: The invention relates to a method (110) for producing an electrically conductive connection (112, 112?) on a substrate (114), comprising the following steps: a) providing a substrate (114), wherein the substrate (114) is configured for receiving an electrically conductive connection (112, 112?); b) providing a reservoir of an electrically conductive liquid alloy, wherein the reservoir has a surface at which the alloy has an insulating layer; c) providing a capillary (120) configured for taking up the electrically conductive liquid alloy; d) penetrating of a tip (122) of the capillary (120) under the surface of the reservoir and taking up of a portion of the alloy from the reservoir; and e) applying the portion of the alloy at least partly to the substrate (114) in such a manner that an electrically conductive connection (112, 112?) is formed from the alloy on the substrate (114), wherein the alloy remains on the substrate (114) by adhesion.

Abstract: The invention relates to a method (110) for producing an electrically conductive connection (112, 112?) on a substrate (114), comprising the following steps: a) providing a substrate (114), wherein the substrate (114) is configured for receiving an electrically conductive connection (112, 112?); b) providing a reservoir of an electrically conductive liquid alloy, wherein the reservoir has a surface at which the alloy has an insulating layer; c) providing a capillary (120) configured for taking up the electrically conductive liquid alloy; d) penetrating of a tip (122) of the capillary (120) under the surface of the reservoir and taking up of a portion of the alloy from the reservoir; and e) applying the portion of the alloy at least partly to the substrate (114) in such a manner that an electrically conductive connection (112, 112?) is formed from the alloy on the substrate (114), wherein the alloy remains on the substrate (114) by adhesion.

Abstract: The present invention relates to methods for the immobilization of cells or virus particles of interest expressing one or more predetermined surface marker(s) on defined spots on a solid support, comprising the steps of providing a biological fluid sample suspected of containing cells or virus particles of interest; labeling the cells or virus particles of interest with antibodies, antibody fragments or antibody mimetics directed against the one or more predetermined surface marker(s) and carrying a first binding agent; and contacting the labeled cells or virus particles of interest with a solid support (biochip), said solid support comprising an array of defined isolated spots of a solid support-bound second binding agent, wherein the first and second binding agents can bind to each other. The present invention further relates to devices for the isolation of cells or virus particles of interest expressing one or more predetermined surface marker(s).

Abstract: A rotating transfer device for transfer of a film to a substrate at a gas-liquid interface, the rotating transfer device comprising a substrate holder holding the substrate, and a rotational positioning unit for rotating the substrate holder, the rotational positioning unit having a pivot to which the substrate holder is attached, whereby the pivot is angled between 0° and 60° to the plane of the interface surface. As a result, LB patterns with different dimensions and orientations that depend on the transfer velocity can be generated simultaneously.