This study describes a label-free voltammetric detection of 2-aminoindane (2-AI), a novel psychoactive substance, using graphite screen-printed electrode modified by an electrochemically oxidized cobalt bis(dicarbollide) derivative (CoK/G/SPE). Morphological, structural and electrochemical characterization is assessed by using a computational approach, scanning electron microscopy, infrared spectrometry and electrochemical techniques. The binding/recognition of 2-AI (as a primary analyte) and 2,5-dimethoxy-4-iodoamphetamine (DOI, as interferent from category amphetamines) is compared, with CoK as a monomer as well as electrochemically deposited on the G/SPE surface. The mechanism of selectivity is proposed. The experimental findings show that these two stimulants compete for the binding/recognition sites on the modified electrode surface, with the adsorption constant values of (2.62 ± 0.67) x 105 and (6.10 ± 1.32) x 105, a linear range of 19.9 – 119 μmol L–1 and 9.97 – 235 μmol L–1, and the limit of detection 7.2 μmol L–1 and 2.37 μmol L–1for 2-AI and DOI, respectively. An important point considering the analytical applicability and significance of CoK/G/SPE for forensic analysis is the possibility to distinguish 2-AI from an amphetamine derivative in a two-component mixture. The CoK/G/SPE electrodes are successfully applied to determine 19.9 μmol L–1 2-AI in spiked model samples with recovery values of 85.3–94.8% and relative standard deviations 10–21%. Such reproducibility is satisfactory considering the low cost of the electrode fabrication route.