Investigation of the stability of nanostructures to degradation

The paper presents the dependence of the degradation degree in various aggressive media and time in a medium. The greatest deterioration in crystallographic characteristics of nanostructures in corrosive media is observed on the day 10th , which is due to partial destruction of the crystal structure as a result of oxidation processes. Also, an increase in the oxygen concentration in the structure leads to an increase in disorder regions, amorphization, and subsequent destruction of samples.

1. T.A. Saleh, V.K. Gupta, Journal of Colloid and Interface Sc. 371(1) (2012) 101.

2. B.L. Allen et al., Journal of the American Chemical Soc. 131(47) (2009) 17194.

3. A. Kar et al., Environmental science & technology 43(9) (2009) 3260.

4. E. Saputra et al., Environmental science & technology 47(11) (2013) 5882.

5. L. Saikia et al., Applied Catalysis A: General 490 (2015) 42.

6. A. Turki et al., Applied Catalysis B: Environmental 163 (2015) 404.

7. R. Kumar et al., Nanoscience and Nanotechnology Let. 6(8) (2014) 631.

8. A. Maleki, B. Shahmoradi, Water Science and Technology 65(11) (2012) 1923.

9. C.D. Cowman et al., Jour. of the American Chemical Soc. 137(18) (2015) 6026.

10. L.F. Chiang, R. Doong, Journal of hazardous materials 277 (2014) 84.

11. R. Doong et al., Applied Catalysis B: Environmental 129 (2013) 48.

12. M.S. Hegde, K. Nagaveni, S. Roy, Pramana 65(4) (2005) 641.

13. L. Feng et al. Nanoscale research letters 7(1) (2012) 276.

14. L. Yang et al. Environmental science & technology 44(19) (2010) 7641.

15. R. Rotagha, et.al., Scr. Metall. Mater. 25 (1991) 2867.

16. B.V. Mahesh et al., Metall. Mater. Trans. A45 (2014) 5799.

17. Y. Z Hao et al., Acta Mater. 67 (2014) 181.

18. H.M. Shodja et al., Math. and Comp. Modelling 52(9-10) (2010) 1403.

19. K. Kiani, H.M. Shodja, Applied Mathematical Modelling 35(5) (2011) 2529.