Synthesis and characterization of wide-scale UV–vis CUT-OFF laser filter using methyl violet-6B/PMMA polymeric composite films

[Display omitted] •Novel wide scale CUT-OFF filter based on PMMA doped MV-6B polymeric composite films were designed and characterized.•PMMA/ methyl violet 6B films were characterized by using X-ray diffraction and UV-Vis-NIR spectroscopy and optical limiting effect.•PMMA/MV-6B composites were discussed according to the electrostatic interaction between the PMMA chains and the molecules of methyl violet 6B.•PMMA/MV-6B films with 3.333 wt% of MV-6B) showed a large scale CUT-OFF laser filter inside the total spectrum in the range from 190- 675 nm.•Our designed filter is a unique polymeric composite film for optoelectronic and laser applications. Poly(methyl methacrylate) (PMMA) doped with different weight percent of methyl violet-6B (MV-6B) as polymeric films were prepared by a casting method. Different concentrations of MV-6B can affect both the crystal structure and optical properties of PMMA. The broad hump diffraction peaks present in PMMA at 2θ = 15.27°, 30.60°, and 40.69° are ascribed to amorphous PMMA. During the incorporation of MV-6B dye onto PMMA, the intense peaks of PMMA at the 2θ value of 15.27° and 30.6° became less intense, and d-spacing was changed. The X-ray results confirmed the strong electrostatic interaction of the cationic MV-6B dye with the anionic PMMA polymer. Furthermore, the transmittance of PMMA/MV-6B composites is decreased with the increase of MV-6B dopants concentrations onto the PMMA matrix; this may be attributed to the electrostatic interaction between the PMMA chains and the molecules of methyl violet-6B. MV-6B-doped PMMA possesses three distinct band gaps corresponding to the pure PMMA, and other two band gaps are for the MV-6B /PMMA composite films. PMMA/MV films with 3.333 wt% of MV-6B) showed a large scale CUT-OFF laser filter inside in the range from 190 to 670 nm. Our designed filter is a unique polymeric composite film for optoelectronic and laser applications.