Measuring arrangement for optically evaluating a chemical reaction quantitatively

1. A measuring arrangement for optically evaluating a chemical reaction quantitatively, comprisinga sample carrier having a transparent carrier layer and a sample layer,a photosensitive sensor with a plurality of photodetectors on a carrier body and a transparent cover layer arranged over the photodetectors,wherein the photosensitive sensor is arranged in a base body,the carrier layer comprising a discharge section, a microfluidic system and a reservoir,the discharge section being connected via the microfluidic system to the reservoir, and the microfluidic system comprising at least one channel,the sample layer having an analysis side and opposite the analysis side a light outlet side, wherein on the analysis side spaced apart from one another in a longitudinal direction of the sample layer, a plurality of test sections are arranged, wherein each test section of the plurality of test sections comprises a reagent corresponding to an analyte in a sample material transported in the microfluidic system for producing the reaction, and each test section of the plurality of test sections is a single body which is connected to the sample layer and the sample layer is arranged with the analysis side on the carrier layer such that the test sections face a volume of the channel of the microfluidic system andthe sample carrier being arranged detachably in a mounting device of the base body, so that the light outlet side faces the photosensitive sensor and the test sections are arranged above the photodetectors,wherein to evaluate a result of the reaction, which is directly connected to the quantitative presence of the analyte in the sample material, the photosensitive sensor is configured to capture the test section and evaluate the time-dependent behavior of a detected optical signal,wherein the cover layer and the sample layer are disposed between the test sections and the photodetectors, a thickness of the cover layer is less than 500 μ

• m, and a thickness of the sample layer is less than 200 μ
  
  m, such that a distance between the test sections and the photodetectors is less than 700 μ
  
  m and at least 99.5% of the electromagnetic radiation coming from a test section and reaching the photosensitive sensor is incidental on three photodetectors,wherein the plurality of photodetectors comprises a first photodetector disposed directly underneath a first test section of the plurality of test sections, a second photodetector disposed directly underneath a second test section of the plurality of test sections, and at least three additional photodetectors disposed between the first photodetector and the second photodetector, the first test section being disposed adjacent the second test section, andwherein a center-to-center distance between the first test section and the second test section is greater than or equal to 3-times the center-to-center distance of adjacent photodetectors.