PDF Publication Title:
Text from PDF Page: 012
Int. J. Electrochem. Sci., Vol. 14, 2019 5384 (obtained with the SQUAD software) giving reliability to the pKa values calculated in this work, which are duly contrasted with those already reported. ACKNOWLEDGEMENTS JMG thanks the Consejo Nacional de Ciencia y Tecnología (CONACYT) for the studentship number 306024 granted to pursue doctoral studies. MTRS and ARH thank CONACYT the financing granted through the basic science project 237327, as well as the 2159 cathedra. MPP, SCA, ARH, MTRS and MRR thank the SNI for the distinction of their membership and the associated stipend. References 1. H.P.T. Ammon and M.A. Wahl, Planta Medica, 57 (1991) 1. 2. R.J. Anto, G. Kuttan, K.V.D. Babu, K.N. Rajasekharan and R. Kuttan, Pharm. Pharmacol. Commun., 4 (1998) 103. 3. N. Sreejayan, M.N.A. Rao, K.I. Priyadarsini and T.P.A. Devasagayam, Int. J. Pharmacology, 1 (1997)127. 4. M.K. Unnikrishnan and M.N.A. Rao, Pharmazie, 50 (1995) 490. 5. R.J. Anto, G. Kuttan, K.V.D. Babu, K.N. Rajasekharan and R. Kuttan, Int. J. Pharm., 131 (1996) 1. 6. A. Barik, B. Mishra, L. Shen, H. Mohan, R.M. Kadam, S. Dutta, H.Y. Zhang and K.I. Priyadarsini, Free Radical Biol. Med., 39 (2005) 811. 7. S. Mishra and K. Planivelu, Annals Indian Acad. Neurology, 11 (2008)13. 8. M.N.A. Rao, J. Pharm. Pharmacol., 46 (1994) 1013. 9. H.H. Tønnesen, H. de Vries, J. Karlsen and G. van Henegouwen, J. Pharma. Sci. 76 (1987) 371. 10. H.H.P. Cohly, S. Asad, S.K. Das, M.F. Angel and M. Rao, Int. J. Mol. Sci., 4 (2003) 22. 11. S. Zhihua, R. Salto, C. Craick and O.R. de Montellano, Bioorg. Med. Chem., 1 (1993) 415. 12. S.Z. Moghadamtousi, H.A. Kadir, P. Hassandarvish, H. Tajik, S. Abubakar and K. Zandi, Biomed Research Int., Article ID 186864 (2014). (12 pp). 13. S. M. Richart, Y.L. Li, Y. Mizushina, Y.Y. Chang, T.Y. Chung, G.H. Chen, J.T.C. Tzen, K.S. Shia and W.L. Hsu, J. Food Drug Anal., 26 (2018) 1015. 14. C.S. Mangolim, C. Moriwaki, A.C. Nogueira, F. Sato, M.L. Baesso, A. Medina Neto and G. Matioli, Food Chem., 153 (2014) 361. 15. H.H. Tønnesen and J. Karlsen, Zeitschrift für Le0bensmittel-Untersuchung und -Forschung, 180 (1985) 402. 16. H.H. Tønnesen and J. Karlsen, Zeitschrift für Le0bensmittel-Untersuchung und -Forschung, 180 (1985)132. 17. Y.J. Wang, M.H. Pan, A.L. Cheng, L.I. Lin, Y.S. Ho, C.Y. Hsieh and J.K. Lin, J. Pharm. Biomed. Anal., 15 (1997) 1867. 18. O.N. Gordon, P.B. Luis, H.O. Sintim and C. Schneider, Journal of Biological Chemistry, 290 (2015) 4817. 19. B. Tang, L. Ma, H.Y. Wang and G.Y. Zhang, J. Agric. Food Chem., 50 (2002)1355. 20. F.-S. Yan, J.-L. Sun, W.-H. Xie, S. Liang and H.-F. Ji, Nutrients, 10 (2017) 1. 21. F. Amanolahi, A. Mohammadi, R. Kazemi-Oskuee, H. Nassirli and B. Malaekeh-Nikouei, Avicenna J. Phytomed., 7 (2017) 444. 22. M.T. Ramírez-Silva, M.E. Palomar-Pardavé, I. González and A. Rojas-Hernández, Electroanalysis, 7 (1995) 184. 23. R. Martínez, M.T. Ramírez-Silva and I. González, Electroanalysis, 10 (1998) 336-342. 24. D. Legget. Computational methods for the determination of formation constants. Plenum press, (1995) New York.PDF Image | Curcumin in Aqueous Media at Different pH
PDF Search Title:
Curcumin in Aqueous Media at Different pHOriginal File Name Searched:
140605373.pdfDIY PDF Search: Google It | Yahoo | Bing
CO2 Organic Rankine Cycle Experimenter Platform The supercritical CO2 phase change system is both a heat pump and organic rankine cycle which can be used for those purposes and as a supercritical extractor for advanced subcritical and supercritical extraction technology. Uses include producing nanoparticles, precious metal CO2 extraction, lithium battery recycling, and other applications... More Info
Heat Pumps CO2 ORC Heat Pump System Platform More Info
| CONTACT TEL: 608-238-6001 Email: greg@infinityturbine.com | RSS | AMP |