Abstract: The present invention relates to a specific protein marker and to a method for identifying the statistical distribution of protein stoichiometry. Novel specific protein markers and methods for their detection are needed in order to clarify important biological questions. This objective is established by means of a specific protein marker comprising two (separate) units, of which the first unit comprises a molecule for specifically binding to a protein and at least one chemically coupled molecule for binding to the second unit, and the second unit comprises a surface-modified nanoparticle, said surface-modified nanoparticle having a surface coating comprising at least one molecule for binding to the first unit.

Abstract: The present invention relates to a device and a method for the stoichiometric analysis of samples. In order to study the spatial distribution of different proteins in the plasma membrane of a complete cell within a short time frame, a device and a method are proposed for the stoichiometric analysis of samples.

Abstract: The aim of the invention is to create a composition for coating electric conductors which is significantly more resistant to partial discharges than prior art compositions while the produced insulating layer is highly extensible. Said aim is achieved by a composition comprising 1 to 50 percent by weight of microparticles that have a specifically adjusted electronic defect structure in the crystal lattice, resulting in greater polarizability of the valence electrons, and an organic and/or organic-inorganic matrix.

Abstract: The invention relates to a method for transferring surface structures such as interference layers, holograms, and other highly refractive optical microstructures to substrates. The aim of the invention is to devise a method which is used for transferring surface structures such as interference layers, holograms, and other highly refractive optical microstructures to substrates and can also be used in a high temperature range. The aim is achieved by a method comprising the following steps: a) a flexible intermediate support layer is applied to a support film as a release layer; b) an embossed sol is applied to the intermediate support layer and is provided with a surface structure; c) a stack encompassing a binder layer and the surface structure is produced; d) the support film is removed; e) the workpiece is thermally treated.

Abstract: The invention relates to a method for producing structured optical materials. It also relates to a device for producing structured optical materials, and to use of the method. In order to create a novel, continuous method for the production of structured optical materials, which is more economical than the known production method, it is proposed within the scope of the invention that optical material be applied to a carrier, a carrier or protective film be laminated onto the optical material, the resulting laminate be exposed to light and thereby structured, and subsequently a delamination of at least one of the films be performed.