From structural stability to electronic flexibility: Unveiling strain-induced effects in a MoS2/perylene orange hybrid system

This study delves into the interaction between a monolayer of molybdenum disulfide (MoS2) and a single perylene orange (PO) molecule, representative of inorganic and organic semiconductor materials, respectively. Investigation of the amalgamation of these materials under mechanical strains reveals significant alterations in the electronic properties of the MoS2/PO interface. Tensile strain induces a reduction in the bandgap, while compressive strain initially engenders an increase, followed by a subsequent decrease. Notably, MoS2 undergoes a transition from a direct to an indirect bandgap under both stretching and compression conditions. Remarkably, under specific compression conditions, the MoS2/PO system manifests a transition between type II and type I band alignments. The detailed analysis of a range of strain magnitudes yields profound insights into the behavior of MoS2 and MoS2/PO systems under mechanical strain, with potential implications for nano- and optoelectronics applications.