Green synthesis of iron nanoparticles by Terminalia arjuna bark extract and photodegradation of rose bengal
محورهای موضوعی : Iranian Journal of Catalysis
Mrunal Vishnu Kangralkar
1
,
Manjanna Jayappa
2
1 - Department of Chemistry, Rani Channamma University, Belagavi 591156, Karnataka, India.
2 - Department of Chemistry, Rani Channamma University, Belagavi 591156, Karnataka, India.
کلید واژه: Photodegradation, iron nanoparticles, Terminalia arjuna bark extract, Rose bengal,
چکیده مقاله :
In this study, iron nanoparticles (FeNPs) were synthesized by green route under microwave irradiation. Terminalia arjuna bark extract was used for synthesis, which acts as reducing and stabilizing agent. The synthesized FeNPs were characterised by UV-Visible spectra, X-ray diffraction (XRD), scanning electron microscopy (SEM), Fourier transform infrared spectra (FT-IR), BET surface area and UV-DRS (diffuse reflectance spectrophotometer). The absorption spectra of FeNPs showed a surface plasmon resonance (SPR) peak at 280 nm. The photocatalytic activity of rose bengal by FeNPs was studied under sunlight and UV light (250 W) of photocatalytic reactor. The percentage of photodegradation of RB was 83 % and 95 %, in about 240 min and 200 min in sunlight and UV light, respectively. The photocatalytic degradation of RB by Fe NPs follows pseudo-first order kinetics. The photodegradation of RB was confirmed by LC-MS analysis.
[1] S. Yallappa, J. Manjanna, M.A. Sindhe, N.D. Satyanarayan, S.N. Pramod, K. Nagraja, Spectrochim. Acta A 110 (2013) 108-115.
[2] G.E. Hoag, J.B. Collins, J.L. Holcomb, J.R. Hoag, M.N. Nadagouda, R.S. Varma, J. Mater. Chem. 19 (2009) 8671-8677.
[3] T. Sinha, M. Ahmaruzzaman, Photochem. Photobiol. Sci. 15 (2016) 1272-1281.
[4] J. Saha, A. Begum, A. Mukherjee, S. Kumar, Sustain. Environ. Res. 27 (2017) 245-250.
[5] S. Saif, A. Tahir, Y. Chen, Nanomaterials 6 (11) (2016) 209.
[6] M. Ismail, S. Gul, M.I. Khan, M. Khan, A.M. Asiri, S.B. Khan, Green Process. Synth. 8 (2019) 135-143.
[7] D. Raghunandan, S. Basavaraja, B. Mahesh, S. Balaji, S.Y. Manjunath, A. Venkataraman, Nanobiotechnol. 5 (2009) 34-41.
[8] J. Jeyasundari, P.S. Praba, Y.B.A. Jacob, V.S. Vasantha, V. Shanmugaiah, Chem. Sci. Rev. Lett. 22 (2017) 1244-1252.
[9] M. Fazlzadeh, K. Rahmani, A. Zarei, H. Abdoallahzadeh, F. Nasiri, R. Khosravi, Adv. Powder Technol. 28 (2017) 122-130.
[10] T. Wang, X. Jin, Z. Chen, M. Megharaj, R. Naidu, Sci. Total Environ. 466 (2014) 210-213.
[11] M. Amini, B. Pourbadiei, T. Purnima, L. Woo, New J. Chem. 38 (2014) 1250-1255.
[12] H.-Y. Zhu, Y.-Q. Fu, R. Jiang, J.-H. Jiang, L. Xiao, G.-M. Zeng, S.-L. Zhao, Y. Wang, Chem. Eng. J. 173 (2011) 494-502.
[13] R. Wahab, F. Khan, N. Kaushik, J. Musarrat, A. Al-Khedhairy, Sci. Rep. 7 (2017) 42509.
[14] E. N. Zarea, A. Motaharib, M. Sillanpaa, Environ. Res. 162 (2018) 173-195.
[15] S. Karimifard, M. Moghaddam, Sci. Total Environ. 640 (2018) 772-797.
[16] A. Buthiyappan, A.R. Aziz, W. Daud, Rev. Chem. Eng. 32 (2016) 1-47.
[17] Y. Zhou, J. Lu, Y. Zhou, Y. Liu, Environ. Pollut. 252 (2019) 352-365.
[18] H. Guo, Y. Ke, D. Wang, K. Lin, R. Shen, J. Chen, W. Weng, J. Nanopart. Res. 15 (2013) 1475.
[19] L. Laysandra, M.W.M.K. Sari, F.E. Soetaredjo, K. Foe, J.N. Putro, A. Kurniawan, Yi-H. Ju, S. Ismadji, Heliyon 3 (2017) e00488.
[20] M. Vinuth, H.B. Naik, B. Vinoda, S. Pradeepa, G.A. Kumar, K. Chandrashekhar, J. Environ. Anal. Toxicol. 6 (2016) 2-7.
[21] A. Bhattacharjee, M. Ahmaruzzaman, J. Photochem. Photobiol. A 353 (2018) 215-228.
[22] M. Farbod, M. Khademalrasool, Powder Technol. 214 (2011) 344-348.
[23] S. Tuprakay, W. Liengcharernsit, J. Hazard. Mater. B 124 (2005) 53-58.
[24] H. Donga, G. Chena, J. Suna, C. Li, Y. Yua, D. Chen, Appl. Catal. B 134 (2013) 46-54.
[25] Z.W. Seh, S. Liu, M. Low, S.-Y. Zhang, Z. Liu, A. Mlayah, M.-Y. Han, Adv. Mater. 24 (2012) 2310-2314.
[26] J. Lee, D.C. Sorescu, X. Deng, J. Am. Chem. Soc. 133 (2011) 10066-10069.
[27] N. Arabpour, A. Nezamzadeh-Ejhieh, Mater. Sci. Semicond. Process. 31 (2015) 684-692.
[28] Q. Xu, L. Zhang, J. Yu, S. Wageh, A.A. Al-Ghamdi, M. Jaroniec, Mater. Today 21 (2018) 1042-1063.
[29] N. Rahman, Z. Abedin, M.A. Hossain, Am. J. Environ. Sci. 10 (2014) 157-163.
[30] D.W. Elliott, H-L. Lien, W-X. Zhang, J. Environ. Eng.·135 (2009) 317-324.
[31] T. Shahwan, S.A. Sirriah, M. Nairat, E. Boyac, A.E. Eroglu, T.B. Scott, K.R. Hallam, Chem. Eng. J. 172 (2011) 258-266.
[32] M.N. Nadagouda, T.F. Speth, R.S. Varma, Acc. Chem. Res. 44 (2011) 469-478.
[33] S. Joseph, B. Mathew, Spectrochim. Acta A 136 (2015)1371-1379.
[34] K. Patel, S. Kapoor, D.P. Dave, T. Mukherjee, J. Chem. Sci. 117 (1) (2005) 53-60.
[35] T. Ghodselahi, M.A. Vesaghi, A. Shafiekhani, J. Phys. D: Appl. Phys. 42 (2009) 015308.
[36] C. Krishnaraj, E.G. Jagan, S. Rajasekar, P. Selvakumar, P.T. Kalaichelvan, N. Mohan, Colloids Surf. B 76 (2010) 50-56.
[37] V. Subramaniyam, S.R. Subashchandrabose, P. Thavamani, M. Megharaj, Z. Chen, R. Naidu, J. Appl. Phycol. 27 (2015) 1861-1869.
[38] R. Singh, V. Misra, R.P. Singh, J. Nanopart. Res. 13 (2011). 4063-4073.
[39] S. Bansod, M. Rai, World J. Medical Sci. 3 (2008) 81-88.
[40] B. Sultana, F. Anwar, R. Przybylski, Food Chem. 104 (2007) 1106-1114.
[41] S. Jain, P.P. Yadav, V. Gill, N. Vasudeva, N. Singla, Phytochem. Rev. 8 (2009) 491-502.
[42] V. Madhavi, T.N.V.K.V. Prasad, A.V.B. Reddy, B.R. Reddy, G. Madhavi, Spectrochim. Acta A 116 (2013) 17-25.
[43] A. Alshehri, M.A. Malik, Z. Khan, S.A. Al-Thabaiti, N. Hasan, RSC Adv. 7 (2017) 25149-25159.
[44] T. Wang, J. Lin, Z. Chen, M. Megharaj, R. Naidu, J. Clean. Prod. 83 (2014) 413-419.
[45] V. Smuleac, R. Varma, S. Sikdar, D. Bhattacharyy, J. Membrane Sci. 379 (2011) 131-137.
[46] K.M. Kumar, B.K. Mandal, K.S. Kumar, P.S. Reddy, B. Sreedhar, Spectrochim. Acta A 102 (2013) 128-133.
[47] E.C. Njagi, H. Haung, L. Stafford, H. Genuino, H.M. Galindo, J.B. Collins, G.E. Hoag, S.L. Suib, Langmuir 27 (2011) 264-271.
[48] E.A. Essien, D. Kava, M.M. Solomon, Chem. Eng. Comm. 205 (2018) 1568-1582.
[49] J. Esmaili-Hafshejani, A. Nezamzadeh-Ejhieh, J. Hazard. Mater. 316 (2016) 194-203.
[50] S. Jafari, A. Nezamzadeh-Ejhieh, J. Colloid Interf. Sci. 490 (2017) 478-487.
[51] Y. Bagbi, A. Sarswat, S. Tiwari, D. Mohan, A. Pandey, P.R. Solanki, Environ. Nanotechnol. Monit. Manage. 7 (2017) 34-35.
[52] W. Zhang, J. Nanopart. Res. 5 (2003) 323-332.
[53] H.-J. Lu, J.-K. Wang, S. Ferguson, T. Wang, Y. Bao, H.-X. Hao, Nanoscale 8 (2016) 9962-9975.
[54] Z. Zongshan, L. Jingfu, T. Chao, Z. Qunfang, H. Jingtian, J. Guibin, Sci. China Ser. B 51 (2008) 186-192.
[55] L. Xu, J. Wang, J. Hazard. Mater. 186 (2011) 256-264.
[56] U. Farooq, R. Phul, S.M. Alshehri, J. Ahmed, T. Ahmad, Sci. Rep. 9 (2019) 4488.
