Abstract
The possibility of preparing polyurethane–carbon nanotube composites by supercritical antisolvent (SAS) precipitation is demonstrated. The effects of the solvent, the concentration of polymer in the solution, the diameter of the spraying nozzle, and the flow rate of the suspension on the efficiency of synthesizing composites and their morphology are investigated.
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REFERENCES
M. Castellino, M. Rovere, M. I. Shahzad, and A. Tagliaferro, Composites, Part A 87, 237 (2016).
K. Nasouri and A. M. Shoushtari, Compos. Sci. Technol. 145, 46 (2017).
A. Golshahr, E. Natarajan, M. S. Santhosh, R. Sasikumar, S. Ramesh, and R. Durairaj, Int. J. Mech. Prod. Eng. Res. Dev. 8, 743 (2018).
Q. Wang, H. Wang, P. Du, J. Liu, D. Liu, and P. Liu, Electrochim. Acta 294, 312 (2019).
M. Chernysheva, A. Rozhin, Y. Fedotov, C. Mou, R. Arif, S. M. Kobtsev, E. M. Dianov, and S. K. Turi-tsyn, Nanophotonics 6, 1 (2017).
L. Ma, X. Dong, M. Chen, L. Zhu, C. Wang, F. Yang, and Y. Dong, Membranes 7, 16 (2017).
A. Khalid, A. A. Al-Juhani, O. C. Al-Hamouz, T. Laoui, Z. Khan, and M. A. Atieh, Desalination 367, 134 (2015).
M. Moniruzzaman and K. I. Winey, Macromolecules 39, 5194 (2006).
A. A. Dyshin, O. V. Eliseeva, G. V. Bondarenko, and M. G. Kiselev, Russ. J. Phys. Chem. B 89, 1628 (2015).
A. A. Dyshin, O. V. Eliseeva, G. V. Bondarenko, A. M. Kolker, A. G. Zakharov, M. V. Fedorov, and M. G. Kiselev, Russ. J. Phys. Chem. A 87, 2068 (2013).
A. Lucas, C. Zakri, M. Maugey, M. Pasquali, P. van der Schoot, and P. Poulin, J. Phys. Chem. C 113, 20599 (2009).
Q. Cheng, S. Debnath, E. Gregan, and H. J. Byrne, J. Phys. Chem. D 114, 8821 (2010).
W. R. Jung, J. H. Choi, N. Lee, K. Shin, J.-H. Moon, and Y.-S. Seo, Carbon 50, 633 (2012).
K. B. Ustinovich, V. V. Ivanov, Y. M. Tokunov, A. A. Loshkarev, N. I. Sapronova, A. M. Vorobei, O. O. Parenago, and M. G. Kiselev, Molecules 25, 4061 (2020).
J. P. Quigley, K. Herrington, M. Bortner, and D. G. Baird, Appl. Phys. A 117, 1003 (2014).
C. Chen, M. Bortner, J. P. Quigley, and D. G. Baird, Polym. Compos. 33, 1033 (2012).
P. G. Debenedetti, J. W. Tom, X. Kwauk, and S.-D. Yeo, Fluid Phase Equilib. 82, 311 (1993).
A. Montes, R. Merino, D. M. Santos, C. Pereyra, and E. J. Martinez de la Ossa, J. CO2 Util. 21, 169 (2017).
R. D. Oparin, A. M. Vorobei, and M. G. Kiselev, Russ. J. Phys. Chem. B 13, 1139 (2019).
V. N. Bagratashvili, A. M. Egorov, L. I. Krotova, A. V. Mironov, V. Ya. Panchenko, O. O. Parenago, V. K. Popov, I. A. Revel’skii, P. S. Timashev, and S. I. Tsypina, Sverkhkrit. Flyuidy: Teor. Prakt. 6 (4), 88 (2011).
M. A. Rodrigues, J. M. Tiago, A. Duarte, V. Geraldes, H. A. Matos, and E. Gomes Azevedo, Cryst. Growth Des. 16, 6222 (2016).
E. V. Kudryashova, K. V. Sukhoverkov, I. M. Deygen, A. M. Vorobei, O. I. Pokrovskiy, O. O. Parenago, D. E. Presnov, and A. M. Egorov, Russ. J. Phys. Chem. B 11, 1153 (2017).
P. Franco and I. de Marco, Processes 8, 938 (2020).
A. M. Vorobei, O. I. Pokrovskiy, K. B. Ustinovich, O. O. Parenago, V. V. Lunin, and A. G. Miroshnichenko, Russ. J. Phys. Chem. B 12, 1240 (2018).
E. Reverchon, G. della Porta, I. de Rosa, P. Subra, and D. Letourneur, J. Supercrit. Fluids 18, 239 (2000).
A. M. Vorobei, K. B. Ustinovich, O. I. Pokrovskiy, O. O. Parenago, and V. V. Lunin, Russ. J. Phys. Chem. B 9, 1103 (2015).
E. Reverchon, R. Adami, I. D. Marco, C. G. Laudani, and A. Spada, J. Supercrit. Fluids 35, 76 (2005).
P. Franco, O. Sacco, I. de Marco, and V. Vaiano, Catalysts 9, 346 (2019).
N. S. Nesterov, A. S. Shalygin, V. P. Pakharukova, T. S. Glazneva, and O. N. Martyanov, J. Supercrit. Fluids 149, 110 (2019).
A. M. Vorobei, O. I. Pokrovskiy, K. B. Ustinovich, O. O. Parenago, S. V. Savilov, V. V. Lunin, and V. M. Novotortsev, Polymer 95, 77 (2016).
M. S. Costa, A. R. C. Duarte, M. M. Cardoso, and C. M. M. Duarte, Int. J. Pharm. 328, 72 (2007).
Funding
This study was supported by the Russian Foundation for Basic Research (grant no. 18-29-06071_mk). The scanning electron microscopy measurements were performed using shared experimental facilities supported by IGIC RAS state assignment.
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Zuev, Y.I., Vorobei, A.M. & Parenago, O.O. Preparation of Polyurethane–Carbon Nanotube Composites via Suspension Supercritical Antisolvent Precipitation. Russ. J. Phys. Chem. B 15, 1107–1112 (2021). https://doi.org/10.1134/S1990793121070174
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DOI: https://doi.org/10.1134/S1990793121070174