Abstract: The invention relates to a carrier for a thin layer and a method for the analysis of molecular interactions on and/or in such a thin layer. A thin layer disposed on a carrier is illuminated with electromagnetic radiation from at least one radiation source and a reflected radiation part on boundary surfaces of the thin layer is detected by means of an optoelectronic converter that converts the detected radiation into a frequency- and intensity-dependant photocurrent. A reading voltage is applied to the optoelectronic converter. By changing the reading voltage, the spectral sensitivity of the optoelectronic converter is varied such that a substantially constant photocurrent is obtained. Alternatively or in addition to varying the spectral sensitivity by changing the reading voltage, the reflected radiation part is detected with an optoelectronic converter that is designed as a sensor layer in the carrier.

Abstract: The invention relates to a carrier for a thin layer and a method for the analysis of molecular interactions on and/or in such a thin layer. A thin layer disposed on a carrier is illuminated with electromagnetic radiation from at least one radiation source and a reflected radiation part on boundary surfaces of the thin layer is detected by means of an optoelectronic converter that converts the detected radiation into a frequency- and intensity-dependant photocurrent. A reading voltage is applied to the optoelectronic converter. By changing the reading voltage, the spectral sensitivity of the optoelectronic converter is varied such that a substantially constant photocurrent is obtained. Alternatively or in addition to varying the spectral sensitivity by changing the reading voltage, the reflected radiation part is detected with an optoelectronic converter that is designed as a sensor layer in the carrier.

Abstract: A microtiter plate is formed of a bottom plate which is transparent for light and a cavity plate which is open at two surfaces facing one another and which has a matrix-shaped arrangement of cavities or wells. The bottom plate and cavity plate are fixedly connected with one another in a liquid-tight manner. The bottom plate has a thickness of from 0.01 mm to approximately 5 mm and has planar surfaces without structures. It has, at its first surface facing the wells, a layer system formed of at least two layers with different indexes of refraction. The bottom plate is provided at its second surface remote of the wells with a coating which sharply reduces the reflectivity of this surface. The bottom plate is recessed into the lower part of the cavity plate in such a way that it does not project over a support surface located in the cavity plate.

Abstract: A process and a device are described for detecting physical, chemical, biological or biochemical reactions and interactions on biochemically or chemically functionalized specimen carriers in the form of layers or films from the spectral reflection after irradiation of the specimens with light of different wavelengths. In so doing, parameters for the nature of the specimens are determined in an economical and highly accurate manner and with a high degree of parallelism in the measurements. According to the process, the specimens are arranged on a substrate plate with a carrier layer of a carrier plate and are irradiated with light.