Xây dựng phương pháp định tính một số hoạt chất bằng thiết bị đo phổ raman cầm tay
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24. Blanco M., Villarroya I. (2002), ―NIR spectroscopy: a rapid-response analytical tool‖, Trends in Analytical Chemistry, 21(4), pp.240 – 250. 25. Brits M., Kopp S. (2014), ―Combating unsafe medical products: outcomes of a survey on testing of suspect medicines‖, WHO Drug Information, 28(3), pp.317 – 323. 26. Bumbrah G.S., Sharma R.M. (2015), ―Raman spectroscopy – Basic principle, instrumentation and selected applications for the characterization of drugs of abuse‖, Egyptian Journal of Forensic Sciences, 6(3), pp.209 – 215. 27. Cantarero A. (2015), ―Raman scattering applied to materials science‖, Procedia Materials Science, 9, pp.113 – 122. 28. Chalmers J.M., Edwards H.G.M., Hargreaves M.D. (2012), Infrared and Raman Spectroscopy in Forensic Science, John Wiley & Sons, United Kingdom, pp.121 – 149, 162 – 165, 419 – 510, 369 – 380. 29. Coates J. (1998), ―Vibrational Spectroscopy: Instrumentation for Infrared and Raman Spectroscopy‖, Applied Spectroscopy Reviews, 33(4), pp.267 – 425. 30. Deconinck E., Scraré P.Y., Courselle P., Beer J.O.D. (2012), ―Chemometrics and chromatographic fingerprints to discriminate and classify conterfeit medicines containing PDE-5 inhibitors‖, Talanta, 100, pp.123 – 133. 31. Dégardin K., Roggo Y., Margot P. (2014), ―Understanding and fighting the medicine counterfeit market‖, Journal of Pharmaceutical and Biomedical Analysis, 87, pp.167 – 175. 32. Deisingh A.K. (2005), ―Pharmaceutical counterfeiting‖, Analyst, 130, pp.271 – 279. 33. European Alliance for Access to Safe Medicines (EAASM) (2008), The Counterfeiting Superhighway, UK, pp.11 – 15. 34. Ferraro J.R., Nakamoto K., Brown C.W. (2003), Introductory Raman Spectroscopy, Elsevier, America, pp.1 – 2, 5 – 13, 95 – 96. 35. Gilevska T., Gehre M., Richnow H.H. (2015), ―Multidimensional isotope analysis of carbon, hydrogen and oxygen as tool for identification of the origin
of ibuprofen‖, Journal of Pharmaceutical and Biomedical Analysis, 115, pp.410 – 417. 36. Guillemain A., Dégardin K., Roggo Y. (2016), ―Performance of NIR handheld spectrometers for the detection of counterfeit tablets‖, Talanta, 165, pp.632 – 640. 37. Gunasekaran S., Sailatha E., Seshadri S., Kumaresan S. (2009), ―FTIR, FT Raman spectra and molecular structural confirmation of isoniazid‖, Indian Journal of pure and applied physis, 47, pp.12 – 18. 38. Hajjou M., Qin Y., Bradby S., Bempong D., Lukulay P. (2013), ―Assessment of the performance of a handheld Raman device for potential use as a screening tool in evaluating medicines quality‖, Journal of Pharmaceutical and Biomedical Analysis, 74, pp.47 – 55. 39. Hargreaves M.D., Page K., Munshi T., Tomsett R., Gary L., Edwards H.G.M. (2008), ―Analysis of seized drugs using portable Raman spectroscopy in an airport environment—a proof of principle study‖, Journal of Raman Spectroscopy, 39(7), pp.873 – 880. 40. Hedoux A., Guinet Y., Derollez P., Dudognon E., Correia N.T. (2011), ―Raman spcetroscopy of racemic Ibuprofen: evidence of molecular disorder in phase II‖, International journal of pharmaceutics, 421, pp.45 – 52. 41. Nguyen Thi Anh Huong, Pham Thi Ngoc Mai, Doan Thi Tuoi, Ta Thi Thao, Sáiz J., Nguyen Thi Quynh Hoa, Hauser P.C., Mai Thanh Duc (2014), ―Simple semi-automated portable capillary electrophoresis instrument with contactless conductivity detection for the determination of β-agonists in pharmaceutical and pig-feed samples‖, Journal of Chromatography A, 1360, pp.305 – 311. 42. ICH - The International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use (1996), Validation of Analytical Procedures: Text and Methodology, pp.7 – 11.
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- Page 13 and 14: CHƢƠNG 1. TỔNG QUAN 1.1. Tổng
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- Page 35 and 36: 2. Ibuprofen 1 CT1 68,3 34,1 2 CT2
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- Page 75 and 76: CT5 (T5, PT5) Lamivudin 100,0 20,0
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of ibuprofen‖, Journal of Pharmaceutical and Biomedical Analysis, 115, pp.410<br />
– 417.<br />
36. Guillemain A., Dégardin K., Roggo Y. (2016), ―Performance of NIR handheld<br />
spectrometers for the detection of counterfeit tablets‖, Talanta, 165, pp.632 –<br />
640.<br />
37. Gunasekaran S., Sailatha E., Seshadri S., Kumaresan S. (2009), ―FTIR, FT<br />
Raman spectra and molecular structural confirmation of isoniazid‖, Indian<br />
Journal of pure and applied physis, 47, pp.12 – 18.<br />
38. Hajjou M., Qin Y., Bradby S., Bempong D., Lukulay P. (2013), ―Assessment of<br />
the performance of a handheld Raman device for potential use as a screening<br />
tool in evaluating medicines quality‖, Journal of Pharmaceutical and<br />
Biomedical Analysis, 74, pp.47 – 55.<br />
39. Hargreaves M.D., Page K., Munshi T., Tomsett R., Gary L., Edwards H.G.M.<br />
(2008), ―Analysis of seized drugs using portable Raman spectroscopy in an<br />
airport environment—a proof of principle study‖, Journal of Raman<br />
Spectroscopy, 39(7), pp.873 – 880.<br />
40. Hedoux A., Guinet Y., Derollez P., Dudognon E., Correia N.T. (2011), ―Raman<br />
spcetroscopy of racemic Ibuprofen: evidence of molecular disorder in phase II‖,<br />
International journal of pharmaceutics, 421, pp.45 – 52.<br />
41. Nguyen Thi Anh Huong, Pham Thi Ngoc Mai, Doan Thi Tuoi, Ta Thi Thao,<br />
Sáiz J., Nguyen Thi Quynh Hoa, Hauser P.C., Mai Thanh Duc (2014), ―Simple<br />
semi-automated portable capillary electrophoresis instrument with contactless<br />
conductivity detection for the determination of β-agonists in pharmaceutical and<br />
pig-feed samples‖, Journal of Chromatography A, 1360, pp.305 – 311.<br />
42. ICH - The International Council for Harmonisation of Technical Requirements<br />
for Pharmaceuticals for Human Use (1996), Validation of Analytical<br />
Procedures: Text and Methodology, pp.7 – 11.
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