Enhanced optical limiting properties of graphene Oxide-ZnS nanoparticles composites

Publication date: Available online 11 December 2019Source: CarbonAuthor(s): Pei-ling Li, Yu-hua Wang, Meng Shang, Lan-fu Wu, Xiang-Xiang YuAbstractGraphene oxide-ZnS (GOZS) nanocomposites were successfully prepared by solvothermal method. The microstructure, morphology and nonlinear optical properties of the obtained GOZS nanocomposites were characterized by XRD, Raman, SEM, TEM, Mapping, UV–vis and open aperture Z-scan test. The results show that ZnS particles with a diameter of about 20 nm are evenly distributed on the GO surface. And GOZS exhibited enhanced nonlinear absorption and optical limiting (OL) action under ultrafast (1030 nm, 340 fs) excitation. The theoretical nonlinear coefficients of GO, ZnS, GOZS(4:5), GOZS(2:5) and GOZS(1:5) at 20.8 GW/cm2 are calculated as 27.6 cm/GW, 25.4 cm/GW, 554.9 cm/GW, 193.3 cm/GW and 117.1 cm/GW, respectively. The nonlinear performance of GOZS is 5–22 times higher than that of pure GO and ZnS, making it a potential optical limiting material. These results may be useful to design GOZS composites with better OL properties.Graphical abstract
Source: Carbon - Category: Materials Science Source Type: research