[1] M. M. Aung and Y. S. Chang, Food Control, 39, 172–184, )2014(.
[2] A. M. Pappalardo, C. Copat, V. Ferrito, A. Grasso, and M. Ferrante Mol Med. Rep, 15, 3430–3437, )2017(.
[3] He, L-Y, Ying, G-G, Liu, Y-S, Su, Environ Int, 92, 210–219, )2016(
[4] M. Zhang, M. R. Zeiss, and S. Geng, J Integr Agric, 14, 2340–2357, )2015(.
[5] Y. Sapozhnikova and S. J. Lehotay, J. Agric. Food Chem, 63, 5163–5168, )2015(.
[6] R. Li, X. U. Wang, T. Zhou, D. Yang, Q. I. Wang, and Y. U. Zhou, Food Control, 35, 117–122, )2014(.
[7] S. Van Boxstael, Food Control, 32, 190–197, )2013(.
[8] C. R. Kagan, ACS Nano, 10, 2985–2986, )2016(.
[9] Zhou, Hong-Cai; Long, Jeffrey R.; Yaghi, Omar M. Chem. Rev., 112, 673–674, )2012(.
[10] L. Jiao, Y. Wang, H. L. Jiang, and Q. Xu, Adv Mater, 30, 1–23, (2018).
[11] T. Ghanbari, F. Abnisa, and W. M. A. W. Daud, Sci Total Environ, 707, 135090, (2020).
[12] M, Naseri. P, Federica. C, Cristina ChemCatChem, 10, 5425–5433, (2018).
[13] W. P. Lustig, S. Mukherjee, N. D. Rudd, A. V. Desai, J. Li, and S. K. Ghosh, Chem Soc Rev, 46, 3242–3285, (2017).
[14] H. Tian, J. Peng, T. Lv, C. Sun, and H. He, Solid State Chem, 257, 40–48, (2018).
[15] C. Singh, S. Mukhopadhyay, and I. Hod, Nano Converg, 8, 1–10, (2021).
[16] Z. Dong, Y. Sun, J. Chu, X. Zhang, and H. Deng, J Am Chem Soc, 139, 14209–14216, (2017).
[17] S. D. F. Mihindukulasuriya and L. T. Lim, Trends Food Sci Technol., 40,. 149–167, (2014).
[18] A. Schneemann, V. Bon, I. Schwedler, I. Senkovska, S. Kaskel, and R. A. Fischer, Chem Soc Rev, 43,. 6062–6096, (2014).
[19] J. Zhao, F. Wei, W. Xu, and X. Han, Appl Surf Sci, 510, 145418, (2020).
[20] L. A. Chaves Soares and P. C. De Mello-Farias, Genet Mol Biol, 515, 508–515, (2006).
[21] M. E. Saltveit, J Postharvest Biol Technol, 15, 279–292, (1999).
[22] T. R. C. Van Assche, G. Desmet, R. Ameloot, D. E. De Vos, H. Terryn, and J. F. M., Micropor Mesopor Mat, 158, 209–213, (2012).
[23] S. Chopra, S. Dhumal, P. Abeli, R. Beaudry, and E. Almenar, Postharvest Biol Technol, 130,. 48–55, (2017).
[24] K. Wu, C. Du, F. Ma, Y. Shen, and J. Zhou, RSC Adv, 9, 32270–32277, (2019).
[25] M. Mohammadnejad, Z. Gudarzi, S. Geranmayeh, and V. Mahdavi, Microchim Acta, 2, 1–8, (2018).
[26] J. Liu, Y. Zhuang, L. Wang, T. Zhou, N. Hirosaki, and R. J. Xie, ACS Appl Mater Interfaces, 10, 1802–1809, (2018).
[27] Y. Wang, X. Tian, H. Zhang, Z. Yang, and X. Yin, ACS Appl Mater Interfaces, 10, 22445–22452, (2018).
[28] X. Yang, X. Yu, J Chem Eng, 252, 220–229, (2014).
[29] M. Mohapatra, S. Anand, B. K. Mishra, D. E. Giles, and P. Singh, J Environ Manage, 91, 67–77, (2009).
[30] F. D. Gunstone, Vegetable Oils in Food Technology: Composition, Properties and Uses, Second Edition, 1–24, (2011).
[31] E. A. Vlasova, S. A. Yakimov, E. V. Naidenko, E. V. Kudrik, and S. V. Makarov, Food Chem, 190, 103–109, (2016)
[32] Q. Yang, Food Chem, 15, 241-248, (2018).
[33] M. Mohammadnejad, T. Hajiashrafi, and R. Rashnavadi, J Porous Mater, 25, 1771–1781, (2018)
[34] M. Mohammadnejad, T. Hajiashrafi, and R. Rashnavadi, J Porous Mater, 25, 761–769, (2018).
[35] M. Mohammadnejad and M. Fakhrefatemi, J Mol Struct, 1224, 129041, (2021).
[36] M. Mohammadnejad, A. Moeinipour, Int J Ion Mobil Spectrom, 23,105-115, (2020).
[37] M. Mohammadnejad and A. Moeinipour, J Environ Sci Stud, 5, 100, 2661–2664, (2020)
[38] M. Sajid, ESPR, 23, 14805–14807, (2016).
[39] P. A. Julien, T. Fri, P. Julien, Green Chem,19, 2729–2747, (2017).