ABSTRACT
Objective To elevated the decontam ination properties of commercial nanoscale metal oxides against chemical warfare agents (CWA), and provide more foundation for the satisfactory materials of CWA decontamination. Methods Some nanocrystals of commercial metal oxides such an MgO, TiO2, ZnO and zinc nickel ferrite compound had been chosen to compare their decontamination properties. The nanocrystals were mixed with three representative compounds, sulfur mustard (HD), soman (GD) and S-(2-diisopropylaminoethyl) O-ethyl methylphosphonothioate (VX) at room temperature and natural light. The analogous experiments were conducted without addition of nanocrystals as negative control. After a fixed time, the samples were then analyzed by the methods of T-135, Schoeneman reaction and conversion method to determine the content of CWA. The decontamination properties of nanocrystals were compared with negative control. Results The chosen nanoscale metal oxides excepted nanoscale MgO had good decontamination properties against HD, and they all could decontaminate GD quickly. Nanoscale TiO2 had superior decontamination properties against GD and HD. At the room temperature and natural light, HD was completely decontaminated within 20 hours and GD was completely decontaminated within 4 hours by nanoscale TiO2. The nanocrystals of metal oxides didn′t decontaminate VX effectively. Compared to the activated clay group, nanoscale MgO had superior decontamination properties against VX over other nanocrystals (P<0.05), but the percentage of degradation was lower than 20% within 7 h. Conclusion The chosen nanoscale TiO2 has superior decontamination properties against GD and HD than others in natural condition, but it isn′t a promising agent for the decontamination of VX.