Mapping the Interaction Landscape of Adenosine and Minoxidil Sulfate Using an Independent Gradient Model Based on Hirshfeld Partition and Interaction Region Indicator.

Using theoretical techniques, the interactions between adenosine (AD) and minoxidil sulfate (MS) were studied using the DFT/M06-2X/aug-cc-pVDZ level of theory. The formation of the complex was thermodynamically favorable, so we carried out further studies. Frontier molecular orbital analysis shows that the HOMO-LUMO- gap is high (6.81 eV), which means that the complex is kinetically stable. The global reactivity parameters were also calculated to get insight about the chemical reactivity of the complex. Molecular electrostatic potential and charge analyses were carried out for the optimized complex. To study the charge transfer and inter- and intramolecular interactions present in the complex molecule, we employed natural bond orbital analysis. Noncovalent interaction (NCI) analysis along with IGMH and IRI analyses further helped us find the weak interactions. The presence of hydrogen bonds between the N atom (N) of MS and H atom (H) of AD and O atom (O) of MS and H atom (H) of AD was the main finding of these analyses. QTAIM investigation also supports this finding. EDA analysis was carried out to further study the intermolecular interactions present within the complex. Thus, the present investigation unveils the existence of weak NCIs in the complex.