K. Q. Zhou, B. A. Wang, J. J. Liu, S. H. Jiang, Y. Q. Shi, Q. J. Zhang, Y. Hu and Z. Gui (2014) The influence of alpha-FeOOH/rGO hybrids on the improved thermal stability and smoke suppression properties in polystyrene. Journal/Materials Research Bulletin 53 272-279. [In English]
Web link: ,http://dx.doi.org/10.1016/j.materresbull.2014.02.029
Keywords: Composites, Polymers, Solvothermal, Thermogravimetric analysis, FIRE SAFETY APPLICATIONS, REDUCED GRAPHENE OXIDE, CATALYZING, ARBONIZATION, POLYMER NANOCOMPOSITES, FLAME RETARDANCY, GRAPHITE OXIDE, POLYPROPYLENE, COMPOSITE, OXIDATION, REDUCTION

Abstract: In this work, alpha-FeOOH/rGO hybrids were firstly prepared by a facile hydrothermal method. X-ray diffraction and transmission electron microscopy results indicated that alpha-FeOOH nanoparticles were dispersed uniformly on the surface of graphene nanosheets. Subsequently, the alpha-FeOOH/rGO hybrids were incorporated into polystyrene (PS) matrix for the improvement of the thermal stability and smoke suppression properties. It was found that the thermal stability of PS nanocomposite was obviously enhanced upon the introduction of 2.0 wt% alpha-FeOOH/rGO hybrids. Furthermore, the addition of a-FeOOH/rGO hybrids could improve the smoke suppression properties of PS .nanocomposites, as evidenced by the dramatical reduction of carbon monoxide production rate, total smoke release and total smoke production. The total flammable gaseous products from the PS nanocomposites were decreased which further led to the inhibition of smoke. Such a significant improvement in thermal stability and smoke suppression properties was mainly attributed to the physical barrier effect of graphene nanosheets and the catalytic carbonization function of alpha-FeOOH nanoparticles. (C) 2014 Elsevier Ltd. All rights reserved.