Is digital scanner suitable as cheaper alternative of a spectrophotometer? Ivan Landry Yumdjo YOUMBISSI1* , Marie NOVÁKOVÁ1 , Michal Šídlo1 , Přemysl LUBAL1 , Roman JAKUBÍČEK2 1 Department of Chemistry, Faculty of Science, Masaryk University, Kamenice 5, 625 00 Brno, Czech Republic 2 Department of Biomedical Engineering, Faculty of Electrical Engineering and Communication, Brno University of Technology, Technická 12, 616 00 Brno, Czech Republic * 493489@mail.muni.cz Arrays and microarrays have become increasingly popular as tools for biological research using different capture agents in arrays in order to detect DNA/RNA, proteins, carbohydrates, etc. [1]. This concept was also enlarged to identification and sensing of other chemical entities, e.g., ions, vapours, small organic molecules, etc. [1,2]. Technological advances such device miniaturization in combination with CCD technology (e.g., digital scanner/camera or cell phone) have enabled to measure the experimental datasets by easier way using available hardware and software tools than in lab on spectrophotometer [1]. In this contribution, it is demonstrated how the digital scanner could be employed for fast and routine analysis of some analytes in biological samples. The parameters for procedure of scanning by digital scanner have been optimized in order to treat the experimental data by newly developed software ScanQuant2. The determination of Cu(II) and ammonium ions with commercial analytical strip papers as well as 96-well plates using digital scanner shows that it can be employed as suitable alternative for classical spectrophotometer. In addition, the methodology developed for analysis of ammonium ions was also utilized for enzymatic determination of urea. ACKNOWLEDGEMENT The work has been supported by Masaryk University (MUNI/A/1192/2020), Ministry of Education of the Czech Republic (LTC20044, ME09065) and EU (COST CA18202 NECTAR Action). REFERENCES [1] Anzenbacher P. Jr., Lubal P., Buček P., Palacios M.A., Kozelkova M.E.: Chem. Soc. Rev., 39 (2010), 3954- 3979. [2] Šídlo M., Lubal P., Anzenbacher P. Jr.: Chemosensors, 9 (2021), 39.