Tabernero, A., del Valle, E. M. M. & Galán, M. A. Supercritical fluids for pharmaceutical particle engineering: Strategies, primary fundamentals and modelling. Chem. Eng. Course of 60, 9–25. (2012).
Subramaniam, B., Rajewski, R. A. & Snavely, Ok. Pharmaceutical processing with supercritical carbon dioxide. J. Pharm. Sci. 86(8), 885–890. (1997).
Elvassore, N. Ok. I. Pharmaceutical processing with supercritical fluids. In Excessive Strain Course of Expertise: Fundamentals and Purposes (ed. Bertucco, A. G. V. G.) 612–625 (Elsevier Science, 2001).
Gupta, R. B., Chattopadhyay, P. Technique of forming nanoparticles and microparticles of controllable measurement utilizing supercritical fluids and ultrasound. US patent No. 20020000681 (2002).
Reverchon, E., Adami, R., Caputo, G. & De Marco, I. Spherical microparticles manufacturing by supercritical antisolvent precipitation: Interpretation of outcomes. J. Supercrit. Fluids 47(1), 70–84. (2008).
Sodeifian, G., Ardestani, N. S., Sajadian, S. A. & Panah, H. S. Experimental measurements and thermodynamic modeling of Coumarin-7 strong solubility in supercritical carbon dioxide: Manufacturing of nanoparticles by way of RESS methodology. Fluid Part Equilib. 483, 122–143. (2019).
Sodeifian, G., Sajadian, S. A., Ardestani, N. S. & Razmimanesh, F. Manufacturing of loratadine drug nanoparticles utilizing ultrasonic-assisted fast growth of supercritical answer into aqueous answer (US-RESSAS). J. Supercrit. Fluids 147, 241–253. (2019).
Mukhopadhyay, M. Partial molar quantity discount of solvent for solute crystallization utilizing carbon dioxide as antisolvent. J. Supercrit. Fluids 25(3), 213–223. (2003).
Dongala, T. et al. In vitro completely different organic pH circumstances of hydroxychloroquine sulfate tablets is accessible for the remedy of COVID-19. Entrance. Mol. Biosci. 7, 613393. (2021).
de Margerie, V. et al. Steady manufacture of hydroxychloroquine sulfate drug merchandise by way of sizzling soften extrusion know-how to fulfill elevated demand throughout a worldwide pandemic: From bench to pilot scale. Int. J. Pharm. 605, 120818. (2021).
Bodur, S., Erarpat, S., Günkara, O. T. & Bakırdere, S. Correct and delicate dedication of hydroxychloroquine sulfate used on COVID-19 sufferers in human urine, serum and saliva samples by GC-MS. J. Pharm. Anal. 11(3), 278–283. (2021).
Pishnamazi, M. et al. Chloroquine (antimalaria medicine with anti SARS-CoV exercise) solubility in supercritical carbon dioxide. J. Mol. Liq. 322, 114539. (2021).
Doyno, C., Sobieraj, D. M. & Baker, W. Toxicity of chloroquine and hydroxychloroquine following therapeutic use or overdose. Clin. Toxicol. 59(1), 12–23. (2020).
Peper, S., Fonseca, J. M. & Dohrn, R. Excessive-pressure fluid-phase equilibria: Tendencies, latest developments, and methods investigated (2009–2012). Fluid Part Equilib. 484, 126–224. (2019).
Sodeifian, G., Sajadian, S. A. & Ardestani, N. S. Dedication of solubility of Aprepitant (an antiemetic drug for chemotherapy) in supercritical carbon dioxide: Empirical and thermodynamic fashions. J. Supercrit. Fluids 128, 102–111. (2017).
Sodeifian, G., Razmimanesh, F., Sajadian, S. A. & Hazaveie, S. M. Experimental knowledge and thermodynamic modeling of solubility of Sorafenib tosylate, as an anti-cancer drug, in supercritical carbon dioxide: Analysis of Wong–Sandler mixing rule. J. Chem. Thermodyn. 142, 105998. (2020).
Sodeifian, G., Razmimanesh, F. & Sajadian, S. A. Prediction of solubility of sunitinib malate (an anti-cancer drug) in supercritical carbon dioxide (SC–CO2): Experimental correlations and thermodynamic modeling. J. Mol. Liq. 297, 111740. (2020).
Sodeifian, G. & Sajadian, S. A. Solubility measurement and preparation of nanoparticles of an anticancer drug (Letrozole) utilizing fast growth of supercritical options with strong cosolvent (RESS-SC). J. Supercrit. Fluids 133(1), 239–252. (2018).
Sodeifian, G., Razmimanesh, F., Ardestani, N. S. & Sajadian, S. A. Experimental knowledge and thermodynamic modeling of solubility of Azathioprine, as an immunosuppressive and anti-cancer drug, in supercritical carbon dioxide. J. Mol. Liq. 299, 112179. (2019).
Hazaveie, S. M., Sodeifian, G. & Sajadian, S. A. Measurement and thermodynamic modeling of solubility of Tamsulosin drug (anti most cancers and anti-prostatic tumor exercise) in supercritical carbon dioxide. J. Supercrit. Fluids 163, 104875. (2020).
Sodeifian, G., Alwi, R. S., Razmimanesh, F. & Roshanghias, A. Solubility of pazopanib hydrochloride (PZH, anticancer drug) in supercritical CO2: Experimental and thermodynamic modeling. J. Supercrit. Fluids 190, 105759. (2022).
Sodeifian, G., Alwi, R. S., Razmimanesh, F. & Abadian, M. Solubility of Dasatinib monohydrate (anticancer drug) in supercritical CO2: Experimental and thermodynamic modeling. J. Mol. Liq. 346, 117899. (2022).
Sodeifian, G., Alwi, R. S., Razmimanesh, F. & Tamura, Ok. Solubility of quetiapine hemifumarate (antipsychotic drug) in supercritical carbon dioxide: Experimental, modeling and hansen solubility parameter software. Fluid Part Equilib. 537, 113003. (2021).
Sodeifian, G., Garlapati, C., Razmimanesh, F. & Ghanaat-Ghamsari, M. Measurement and modeling of clemastine fumarate (antihistamine drug) solubility in supercritical carbon dioxide. Sci. Rep. 11(1), 1–16. (2021).
Sodeifian, G., Nasri, L., Razmimanesh, F. & Abadian, M. CO2 utilization for figuring out solubility of teriflunomide (immunomodulatory agent) in supercritical carbon dioxide: Experimental investigation and thermodynamic modeling. J. CO2 Util. 58, 101931. (2022).
Sodeifian, G., Ardestani, N. S., Sajadian, S. A. & Panah, H. S. Measurement, correlation and thermodynamic modeling of the solubility of Ketotifen fumarate (KTF) in supercritical carbon dioxide: Analysis of PCP-SAFT equation of state. J. Fluid Part Equilib. 458, 102–114. (2018).
Sodeifian, G., Detakhsheshpour, R. & Sajadian, S. A. Experimental research and thermodynamic modeling of Esomeprazole (proton-pump inhibitor drug for abdomen acid discount) solubility in supercritical carbon dioxide. J. Supercrit. Fluids 154, 104606. (2019).
Sodeifian, G., Garlapati, C., Razmimanesh, F. & Sodeifian, F. Solubility of amlodipine besylate (calcium channel blocker drug) in supercritical carbon dioxide: Measurement and correlations. J. Chem. Eng. Information. 66(2), 1119–1131. (2021).
Sodeifian, G., Garlapati, C., Razmimanesh, F. & Sodeifian, F. The solubility of Sulfabenzamide (an antibacterial drug) in supercritical carbon dioxide: Analysis of a brand new thermodynamic mannequin. J. Mol. Liq. 335, 116446. (2021).
Sodeifian, G., Hazaveie, S. M., Sajadian, S. A. & Saadati Ardestani, N. Dedication of the solubility of the repaglinide drug in supercritical carbon dioxide: Experimental knowledge and thermodynamic modeling. J. Chem. Eng. Information 64(12), 5338–5348. (2019).
Sodeifian, G., Hsieh, C.-M., Derakhsheshpour, R., Chen, Y.-M. & Razmimanesh, F. Measurement and modeling of metoclopramide hydrochloride (anti-emetic drug) solubility in supercritical carbon dioxide. Arab. J. Chem. (2022).
Sodeifian, G., Nasri, L., Razmimanesh, F. & Abadian, M. Measuring and modeling the solubility of an antihypertensive drug (losartan potassium, Cozaar) in supercritical carbon dioxide. J. Mol. Liq. 331, 115745. (2021).
Sodeifian, G., Razmimanesh, F., Sajadian, S. A. & Panah, H. S. Solubility measurement of an antihistamine drug (Loratadine) in supercritical carbon dioxide: Evaluation of qCPA and PCP-SAFT equations of state. Fluid Part Equilib. 472, 147–159. (2018).
Sodeifian, G., Sajadian, S. A. & Razmimanesh, F. Solubility of an antiarrhythmic drug (amiodarone hydrochloride) in supercritical carbon dioxide: Experimental and modeling. Fluid Part Equilib. 450, 149–159. (2017).
Sodeifian, G., Sajadian, S. A., Razmimanesh, F. & Hazaveie, S. M. Solubility of Ketoconazole (antifungal drug) in SC-CO2 for binary and ternary methods: Measurements and empirical correlations. Sci. Rep. 11(1), 1–13. (2021).
Sodeifian, G., Alwi, R. S. & Razmimanesh, F. Solubility of Pholcodine (antitussive drug) in supercritical carbon dioxide: Experimental knowledge and thermodynamic modeling. J. Fluid Part Equilib. 566, 113396. (2022).
Sodeifian, G., Garlapati, C., Razmimanesh, F. & Nateghi, H. Solubility measurement and thermodynamic modeling of pantoprazole sodium sesquihydrate in supercritical carbon dioxide. Sci. Rep. 12, 7758. (2022).
Sodeifian, G., Hazaveie, S. M. & Sodeifian, F. Dedication of Galantamine solubility (an anti alzheimer drug) in supercritical carbon dioxide (CO2): Experimental correlation and thermodynamic modeling. J. Mol. Liq. 330, 115695. (2021).
Sodeifian, G., Ardestani, N. S., Razmimanesh, F. & Sajadian, S. A. Experimental and thermodynamic evaluation of supercritical CO2-solubility of minoxidil as an antihypertensive drug. Fluid Part Equilib. 522, 112745. (2020).
Sodeifian, G., Garlapati, C., Hazaveie, S. M. & Sodeifian, F. Solubility of two,4,7-triamino-6-phenylpteridine (triamterene, diuretic drug) in supercritical carbon dioxide: Experimental knowledge and modeling. J. Chem. Eng. Information 65(9), 4406–4416. (2020).
Sodeifian, G., Ardestani, N. S., Sajadian, S. A., Golmohammadi, M. R. & Fazlali, A. Solubility of sodium valproate in supercritical carbon dioxide: Experimental research and thermodynamic modeling. J. Chem. Eng. Information 65(4), 1747–1760. (2020).
Sodeifian, G., Sajadian, S. A. & Derakhsheshpour, R. Experimental measurement and thermodynamic modeling of Lansoprazole solubility in supercritical carbon dioxide: Utility of SAFT-VR EoS. Fluid Part Equilib. 507, 112422. (2020).
Sodeifian, G., Hazaveie, S. M., Sajadian, S. A. & Razmimanesh, F. Experimental investigation and modeling of the solubility of oxcarbazepine (an anti convulsant agent) in supercritical carbon dioxide. Fluid Part Equilib. 493, 160–173. (2019).
Sodeifian, G. & Sajadian, S. A. Experimental measurement of solubilities of sertraline hydrochloride in supercritical carbon dioxide with/with out menthol: Information correlation. J. Supercrit. Fluids 149, 79–87. (2019).
Sodeifian, G., Usefi, M. M. B., Razmimanesh, F. & Roshanghias, A. Dedication of the solubility of rivaroxaban (anticoagulant drug, for the remedy and prevention of blood clotting) in supercritical carbon dioxide: Experimental knowledge correlations. Arab. J. Chem. 16(1), 104421. (2023).
Abadian, M., Sodeifian, G., Razmimanesh, F. & Mahmoudabadi, S. Z. Experimental measurement and thermodynamic modeling of solubility of Riluzole drug (neuroprotective agent) in supercritical carbon dioxide. Fluid Part Equilib. 567, 113711. (2023).
Sodeifian, G., Garlapati, C. & Roshanghias, A. Experimental solubility and modelling of crizotinib (anti most cancers medicine) in supercritical carbon dioxide. Sci. Rep. 12, 17494. (2022).
Sodeifian, G., Alwi, R. S., Razmimanesh, F. & Sodeifian, F. Solubility of prazosin hydrochloride (alpha blocker antihypertensive drug) in supercritical CO2: Experimental and thermodynamic modeling. J Mol Liq 362, 119689. (2022).
Sodeifian, G., Nasri, L., Razmimanesh, F. & Nooshabadi, M. A. Solubility of ibrutinib in supercritical carbon dioxide (Sc-CO2: Information correlation and thermodynamic evaluation. J. Chem. Thermodyn. 182, 107050. (2023).
Sodeifian, G., Hsieh, C.-M., Tabibzadeh, A., Wang, H.-C. & Nooshabadi, M. A. solubility of palbocilib in supercritical carbon dioxide from experimental measurement and Peng–Robinson equation of state. Sci. Rep. 13, 2172. (2023).
Mahesh, G. & Garlapati, C. Modelling of solubility of some parabens in supercritical carbon dioxide and new correlations. Arab. J. Sci. Eng. (2021).
Alwi, R. S. & Tamura, Ok. Measurement and correlation of derivatized anthraquinone solubility in supercritical carbon dioxide. J. Chem. Eng. Information 60(10), 3046–3052. (2015).
Alwi, R. S., Tanaka, T. & Tamura, Ok. Measurement and correlation of solubility of anthraquinone dyestuffs in supercritical carbon dioxide. J. Chem. Thermodyn. 74, 119–125. (2014).
Kramer, A. & Thodos, G. Solubility of 1-hexadecanol and palmitic acid in supercritical carbon dioxide. J. Chem. Eng. Information 33, 230–234. (1988).
Iwai, Y., Koga, Y., Fukuda, T. & Arai, Y. Correlation of solubilities of excessive boiling parts in supercritical carbon dioxide utilizing an answer mannequin. J. Chem. Eng. Jpn. 25, 757–760. (1992).
Alwi, R. S., Garlapati, C. & Tamura, Ok. Solubility of anthraquinone derivatives in supercrirical carbon dioxide: New correlations. Molecules 26(2), 460. (2021).
Kramer, A. & Tdodos, G. Adaptation of the Flory–Huggins idea for modeling supercritical solubilities of solids. Ind. Eng. Chem. Res. 27, 1506–1510. (1988).
Nasri, L., Bensetiti, Z. & Bensaad, S. Modeling of the solubility in supercritical carbon dioxide of some strong solute isomers utilizing the expanded liquid idea. J. Sci. Technol. 3(2), 39–44 (2018).
Chrastil, J. Solubility of solids and liquids in supercritical gases. J. Phys. Chem. 86(15), 3016–3021. (1982).
Sridar, R., Bhowal, A. & Garlapati, C. A brand new mannequin for the solubility of dye compounds in supercritical carbon dioxide. Thermochim. Acta 561, 91–97. (2013).
Garlapati, C. & Madras, G. Solubilities of palmitic and stearic fatty acids in supercritical carbon dioxide. J. Chem. Thermodyn. 42(2), 193–197. (2010).
Méndez-Santiago, J. & Teja, A. S. The solubility of solids in supercritical fluids. Fluid Part Equilib. 158, 501–510. (1999).
Bartle, Ok. D., Clifford, A., Jafar, S. & Shilstone, G. Solubilities of solids and liquids of low volatility in supercritical carbon dioxide. J. Phys. Chem. Ref. Information 20(4), 713–756. (1991).
Reddy, T. A. & Garlapati, C. Dimensionless empirical mannequin to correlate pharmaceutical compound solubility in supercritical carbondioxide. Chem. Eng. Technol. 42(12), 2621–2630. (2019).
Sodeifian, G., Razmimanesh, F. & Sajadian, S. A. Solubility measurement of a chemotherapeutic agent (Imatinib mesylate) in supercritical carbon dioxide: Evaluation of recent empirical mannequin. J. Supercrit. Fluids 146, 89–99. (2019).
Anita, N. & Garlapati, C. A easy mannequin to correlate solubility of thermolabile solids in supercritical fluids. AIP Conf. Proc. 2446, 180002. (2022).
Rajasekhar, Ch. & Madras, G. An affiliation mannequin for the solubilities of prescription drugs in supercritical carbon dioxide. Thermochim. Acta 507–508, 99–105. (2010).
Li, Q., Zhong, C., Zhang, Z., Liu, Y. & Zhou, Q. An equilibrium mannequin for the correlation of the solubility of solids in supercritical fluids with cosolvent. Sep. Sci. Technol. 38, 1705–1719. (2003).
Sodeifian, G., Garlapati, C., Razmimanesh, F. & Nateghi, H. Experimental solubility and thermodynamic modeling of empagliflozin in supercritical carbon dioxide. Sci. Rep. 12, 9008. (2022).
Reddy, S. N. & Madras, G. An affiliation and Wilson exercise coefficient mannequin for solubilities of fragrant strong pollution in supercritical carbon dioxide. Thermochim. Acta 541, 49–56. (2012).
Spark, D. L., Hernandez, R. & Estevez, L. A. Analysis of density-based fashions for the solubility of solids in supercritical carbon dioxide and formulation of a brand new mannequin. Chem. Eng. Sci. 63, 4292–4301. (2008).
Valderrama, J. O. & Alvarez, V. H. Right means of representing outcomes when modelling supercritical section equiliria utilizing equation of state. Can. J. Chem. Eng. 83(3), 578–581. (2008).
Nationwide Institute of Requirements and Expertise U.S. Division of commerce, NIST Chemistry WebBook in 2018 October. (05 December 2022).
Montequi, I., Alonso, E., Martín, A. & Cocero, M. J. Solubility of diisopropoxititanium bis (acetylacetonate) in supercritical carbon dioxide. J. Chem. Eng. Information 53, 204–206. (2007).
Reddy, S. N. & Madras, G. Solubilities of benzene derivatives in supercritical carbon dioxide. J. Chem. Eng. Information 56, 1695–1699. (2011).
Wang, H., Sang, J., Guo, L., Zhu, J. & Jin, J. Solubility of polyacrylamide in supercritical carbon dioxide. J. Chem. Eng. Information 62, 341–347. (2016).
Jain, A., Yang, G. & Yalkowsky, S. H. Estimation of melting factors of natural compounds. Ind. Eng. Chem. Res. 43, 7618–7621. (2004).
Immirzi, A. & Perini, B. Prediction of density in natural crystals. Acta Crystall. A Crystallogr. 33, 216–218. (1977).
Adachi, Y. & Lu, B.C.-Y. Supercritical fluid extraction with carbon dioxide and ethylene. Fluid Part Equilib. 14, 147–156. (1983).
Akaike, H. Data idea and an extension of the utmost chance precept. In Proceedings of the Second Worldwide Symposium on Data Principle (ed. Petrov, B. N. C. F.) 267–281(AkademiaaiKiado, 1973).
Burnham, Ok. P. & Anderson, D. R. Multimodel inference: Understanding AIC and BIC in mannequin choice. Sociol. Strategies Res. 33(2), 261–304. (2004).
Kletting, P. & Glatting, G. Mannequin choice for time-activity curves: The corrected Akaike data criterion and the F-test. Z. Med. Phys. 19(3), 200–206. (2009).
Anita, N. & Garlapati, C. A statistical evaluation of solubility fashions employed in supercritical carbon dioxide. AIP Conf. Proc. 2446, 180003. (2022).
Haghtalab, A. & Sodeifian, G. Dedication of the discrete rest spectrum for polybutadiene and polystyrene by a non-linear regression methodology. Iran. Polym. J. 11, 107–113 (2002).
Sodeifian, G. & Haghtalab, A. Discrete rest spectrum and Ok-BKZ constitutive equation for PVC, NBR and their blends. Appl. Rheol. 14, 180–189. (2004).