Abstract: The present invention is based on a method for marking products using two or more ink formulations, each containing one or more photoluminescent dyes emitting radiation in the range of 380-3000 nm under photon excitation and distinguished by different fluorescence lifetimes, for storing information in serialization and/or track & trace systems and for document security.

Abstract: The present invention relates to a method for unique marking and to a method for the identification of products by identifying production inaccuracies in the spectral range of up to 3000 nm and to the use of said method for the unique identification of products/documents in serialization systems and/or track and trace systems and for document authentication. In order to increase the number of production inaccuracies up to a spectral range of up to 3000 nm, photoluminescent materials which, under photon excitation, emit radiation in the range of up to 3000 nm, preferably in the range of 750 to 1800 nm, most preferably in the range of 800 to 1100 nm, can be used. Said photoluminescent materials make it possible for production inaccuracies to be sensed from the spectral range of visible light (380 to 750 nm), via the near-infrared (NIR) range, to a spectral range of up to 3000 nm.

Abstract: The present invention relates to a method for identifying products with the aid of an ink formulation which contains semiconductive inorganic nanocrystals which emit radiation in the range of 750-1800 nm when excited by photons, in serialisation and/or track-and-trace systems.

Abstract: The present invention is based on a method for marking products using two or more ink formulations, each containing one or more photoluminescent dyes emitting radiation in the range of 380-3000 nm under photon excitation and distinguished by different fluorescence lifetimes, for storing information in serialization and/or track & trace systems and for document security.

Abstract: Optical diagnosis system for small animal imaging, in which the animal which has been arranged on a bearing plate and treated with an activatable optical contrast medium is irradiated by an excitation source and the resulting fluorescent radiation that is radiated back is detected by a detector system, in which case the bearing plate is designed as a radiation-transparent window (13) for a reference radiation—generated by a second marker of the contrast medium—for the detection of the initial concentration of the inert contrast medium.

Abstract: Optical diagnosis system for small animal imaging, in which the animal which has been arranged on a bearing plate and treated with an activatable optical contrast medium is irradiated by an excitation source and the resulting fluorescent radiation that is radiated back is detected by means of a detector system, in which case the bearing plate is designed as a radiation-transparent window (13) for a reference radiation—generated by a second marker of the contrast medium—for the detection of the initial concentration of the inert contrast medium.