Investigation of the dynamic bending properties of MoS(2) thin films by interference colours

A non-contact method for the observation of the elastic deformation of 2D molybdenum disulfide (MoS(2)) thin films using an ordinary optical microscope is reported. A pulsed laser is used to rapidly increase the bending deformation of the MoS(2) thin films via heating. The bending angle of the MoS(2) thin films shows high stability, changing only 5% in forty days without external forces. However, the bending angle of the MoS(2) thin films substantially decreases after being wetted with the volatile polar solvent tetrahydrofuran (THF), because of its low surface tension. By removing the nano-Newton scale forces on the MoS(2) thin films, the bending angle increases significantly within 4 minutes, and this feature of the thin films shows great potential for use in the fabrication of micro-force sensors. This is the first attempt to study the mechanical properties of 2D materials by optical methods. Further utilization of industrially manufactured MoS(2) thin films for detecting micro-force qualitatively on the basis of their excellent bending properties would significantly reduce the production costs of micro-force sensors.