Subject Areas :
1 - Department of Physics, Faculty of Basic Science, University of Mohaghegh, Ardabili, Iran
Keywords:
Abstract :
References:
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[2] M. Griffith, H. Li, M.V. Werrett, P.C. Andrews, H. Sun, Chemical Society Reviews, 50, 2021, 12037.
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[8] A. Kumar, A. Mandal, A.R. Dixit, A.K. Das, Materials and Manufacturing Processes, 33, 2018, 986.
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[21] P.K. Singh, P. Kumar, A.K. Das, Proceedings of the National Academy of Sciences, 89, 2019, 199.
[22] N.R. Haghighi, R. Poursalehi, Applied Nanoscience, 9, 2019, 411.
[23] E. Wongrat, S. Wongkrajang, A. Chuejetton, C. Bhoomanee, S. Choopun, Materials Research Innovations, 23, 2019, 66.
[24] L.N. Nthunya, L. Gutierrez, S. Derese, E.N. Nxumalo, A.R. Verliefde, B.B. Mamba, S.D. Mhlanga, Journal of Chemical Technology & Biotechnology, 94, 2019, 2757.
[25] S. Kim, Y. Park, S. Jung, Korean Journal of Chemical Engineering, 38, 2021, 885.
[26] A. Ziashahabi, R. Poursalehi, N. Naseri, Materials Science in Semiconductor Processing, 72, 2017, 128.
[27] U. Shuaib, T. Hussain, R. Ahmad, M. Zakaullah, F.E. Mubarik, S.T. Muntaha, S. Ashraf, Materials Research Express, 7, 2020, 035015.
[28] J. Yu, B. Wang, Q. Lu, L. Xiao, X, Ma, Y. Feng, Y. Qian, Electrochimica Acta, 427, 2022, 140843.
[29] D.V. Smovzh, A. Kostogrud, S.Z. Sakhapov, A.V. Zaikovskii, S.A. Novopashin, Carbon, 112, 2017, 97.
[30] N. Shirai, T. Yoshida, S. Uchida, F. Tochikubo, Japanese Journal of Applied Physics, 56, 2017, 424005.
[31] Y.Z. Vassilyeva, D.S. Butenko, S. Li, W. Han, A.Y. Pak, Materials Chemistry and Physics, 254, 2020, 123509.
[32] S.B. Tharchanaa, K. Priyanka, K. Preethi, G. Shanmugavelayutham, Materials Technology, 36, 2021, 97.
[33] I.I. Fairushin, A.I. Saifutdinov, A.O. Sofronitskiy, High Energy Chemistry, 54, 2020, 150.
[34] S. Boughdachi, Y. Badali, Y. Azizian-Kalandaragh, S. Altindal, Journal of Electronic Materials, 47, 2018, 6945.
[35] Z. Wang, C. Jiang, R. Huang, H. Peng, X. Tang, Journal of Physical Chemistry C, 118, 2014, 1155.
[1] C. Gomez, G. Hallot, S. Laurent, M. Port, Pharmaceutics, 13, 2021, 1793.
[2] M. Griffith, H. Li, M.V. Werrett, P.C. Andrews, H. Sun, Chemical Society Reviews, 50, 2021, 12037.
[3] P.G. Jamkhande, N.W. Ghule, A.H. Bamer, M.G. Kalaskar, Journal of Drug Delivery Science and Technology, 53, 2019, 101174.
[4] A.V. Nikam, B.L.V. Prasad, A.A. Kulkarni, CrystEngComm, 20, 2018, 5091.
[5] S.S. Salem, A. Fouda, Biological Trace Element Research, 199, 2021, 344.
[6] F.K. Alsammarraie, W. Wang, P. Zhou, A. Mustapha, M. Lin, Colloids and Surfaces B: Biointerfaces, 171, 2018, 398.
[7] N. Jayarambabu, A. Akshaykranth, T.V. Rao, K.V. Rao, R.R. Kumar, Materials Letters, 259, 2020, 126813.
[8] A. Kumar, A. Mandal, A.R. Dixit, A.K. Das, Materials and Manufacturing Processes, 33, 2018, 986.
[9] K. Ponappa, S. Aravindan, P.V. Rao, J. Ramkumar, M. Gupta, International Journal of Advanced Manufacturing Technology, 46, 2010, 1035.
[10] M. Hourmand, A.A. Sarhan, S. Farahany, M. Sayuti, International Journal of Advanced Manufacturing Technology, 101, 2019, 2723.
[11] K.H. Tseng, C.Y. Chang, M.Y. Chung, T.S. Cheng, Nanotechnology, 28, 2017, 465701.
[12] K.H. Tseng, M.Y. Chung, C.Y. Chang, Nanomaterials, 7, 2017, 133.
[13] P.E. Das, A.F. Majdalawieh, I.A. Abu-Yousef, S. Narasimhan, P. Poltronieri, Materials, 13, 2020, 876.
[14] Z. Rouhani, J. Karimi-Sabet, M. Mehdipourghazi, A. Hadi, A. Dastbazd, Environmental Nanotechnology, Monitoring & Management, 11, 2019, 100198.
[15] Y. He, Z. Wang, L. Ma, L. Zhou, Y. Jiang, J. Gao, Royal Society of Chemistry, 10, 2020, 27697.
[16] A.Y. Aguilera, G. Krepper, M.S.D. Nezio, Journal of Cluster Science, 33, 2022, 1417.
[17] M. Farajimotlagh, R. Poursalehi, M. Aliofkhazraei, Ceramics International, 43, 2017, 7717.
[18] N. Khatoon, H.M. Yasin, M. Younus, W. Ahmed, N.U. Rehman, M. Zakaullah, M.Z. Iqbal, AIP Advances, 8, 2018, 015130.
[19] E. Hashemi, R. Poursalehi, H. Delavari, Materials Science in Semiconductor Processing, 89, 2019, 51.
[20] D. Zhang, Y. Tang, C. Zhang, Q. Dong, W. Song, Y. He, Nanomaterials, 11, 2021, 3138.
[21] P.K. Singh, P. Kumar, A.K. Das, Proceedings of the National Academy of Sciences, 89, 2019, 199.
[22] N.R. Haghighi, R. Poursalehi, Applied Nanoscience, 9, 2019, 411.
[23] E. Wongrat, S. Wongkrajang, A. Chuejetton, C. Bhoomanee, S. Choopun, Materials Research Innovations, 23, 2019, 66.
[24] L.N. Nthunya, L. Gutierrez, S. Derese, E.N. Nxumalo, A.R. Verliefde, B.B. Mamba, S.D. Mhlanga, Journal of Chemical Technology & Biotechnology, 94, 2019, 2757.
[25] S. Kim, Y. Park, S. Jung, Korean Journal of Chemical Engineering, 38, 2021, 885.
[26] A. Ziashahabi, R. Poursalehi, N. Naseri, Materials Science in Semiconductor Processing, 72, 2017, 128.
[27] U. Shuaib, T. Hussain, R. Ahmad, M. Zakaullah, F.E. Mubarik, S.T. Muntaha, S. Ashraf, Materials Research Express, 7, 2020, 035015.
[28] J. Yu, B. Wang, Q. Lu, L. Xiao, X, Ma, Y. Feng, Y. Qian, Electrochimica Acta, 427, 2022, 140843.
[29] D.V. Smovzh, A. Kostogrud, S.Z. Sakhapov, A.V. Zaikovskii, S.A. Novopashin, Carbon, 112, 2017, 97.
[30] N. Shirai, T. Yoshida, S. Uchida, F. Tochikubo, Japanese Journal of Applied Physics, 56, 2017, 424005.
[31] Y.Z. Vassilyeva, D.S. Butenko, S. Li, W. Han, A.Y. Pak, Materials Chemistry and Physics, 254, 2020, 123509.
[32] S.B. Tharchanaa, K. Priyanka, K. Preethi, G. Shanmugavelayutham, Materials Technology, 36, 2021, 97.
[33] I.I. Fairushin, A.I. Saifutdinov, A.O. Sofronitskiy, High Energy Chemistry, 54, 2020, 150.
[34] S. Boughdachi, Y. Badali, Y. Azizian-Kalandaragh, S. Altindal, Journal of Electronic Materials, 47, 2018, 6945.
[35] Z. Wang, C. Jiang, R. Huang, H. Peng, X. Tang, Journal of Physical Chemistry C, 118, 2014, 1155.
