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Przegląd wybranych rodzajów faz stacjonarnych stosowanych w chiralnej chromatografii gazowej

Abstract

Niniejsza praca zawiera przegląd literatury dotyczącej faz stacjonarnych stosowanych do rozdzielania mieszanin związków optycznie czynnych za pomocą techniki chromatografii gazowej. Oprócz faz stacjonarnych komercyjnie dostępnych, tj. pochodne aminokwasów, cyklodekstryny oraz fazy wykorzystujące chelaty metali w pracy scharakteryzowano również nowe – ostatnio opublikowane rozwiązania.

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Category:
Articles
Type:
artykuły w czasopismach recenzowanych i innych wydawnictwach ciągłych
Published in:
Camera Separatoria no. 9, pages 65 - 72,
ISSN: 2083-6392
Language:
Polish
Publication year:
2017
Bibliographic description:
Miciak A., Boczkaj G.: Przegląd wybranych rodzajów faz stacjonarnych stosowanych w chiralnej chromatografii gazowej// Camera Separatoria. -Vol. 9., nr. 2 (2017), s.65-72
Bibliography: test
  1. V. Schurig, Separation of enantiomers by gas chromatography, Journal of Chromatography A, 21 (2012) 495. open in new tab
  2. H. Dodziuk, Introduction to supramolecular chemistry, Kulwer Academic Publishers, (2002) 43.
  3. V. Schurig, Resolution of enantiomers and isotopic compositions by selective complexation gas chromatography on metal complexes, Chromatographia, 13 (1980) 263. open in new tab
  4. Y. Xiaoa, Siu-Choon Ng, T. T. Yang Tan, Y. Wang, Recent development of cyclodextrin chiral stationary phases and their applications in chromatography, Journal of Chromatography A, 1269 (2012) 64. open in new tab
  5. P.A. Levkin, A. Levkina, V. Schurig, Combining the Enantioselectivities of L-Valine Diamide and Permethylat ed β-Cyclodextrin in One Gas Chromatographic Chiral Stationary Phase, Analytical Chemistry, 78 (2006) 5143. open in new tab
  6. J. Ding, T. Welton, D.W. Armstrong, Chiral ionic liquids as stationary phases in gas chromatography, Analytical Chemistry, 76 (2004) 6819. open in new tab
  7. G. Gubitz, M.G. Schmid, Chiral Separation by Chromatographic and Electromigration Techniques, Biopharm Drug Dispos., Institute of Pharmac eutical Chemistry and Pharmaceutical Technology, Karl- Franzens University, 22 (2001) 302. open in new tab
  8. A. Sirit, M. Yilmaz, Chiral Calixarenes, Turkish Journal of Chemistry, 33 (2009) 159. open in new tab
  9. Y. Zhang, Z.S. Breitbach, C. Wang, D.W. Armstrong, The use of cyclofructans as novel chiral selectors for gas chromatography, Analyst, 135 (2010) 1076. open in new tab
  10. Y. Zhang, D.W. Armstrong, 4,6-Di-O-pent yl-3-Ot rifluoroacet yl/propionyl cyclofructan stationary phases for gas chromatographic enantiomeric separations, Analyst, 136 (2011) 2931. open in new tab
  11. Zhi-Yuan Gu, Xiu-Ping Yan, Metal-Organic Framework MIL-101 for High-Resolution Gas- Chromat ographic Separation of Xylene Isomers and Ethylbenzene, Angewandte Chemie International Edition, 49 (2010) 1477. open in new tab
  12. Zhi-Yuan Gu, Cheng-Xiong Yang, Na Chang, Xiu-Ping Yan, Metal-organic framework s for analytical chemistry: from sample collection to chromatographic separation, Accounts of Chemical Research, 45 (2012) 734. open in new tab
  13. V. Schurig, W. Burkle, Extending the scope of enantiomer resolution by complexation gas chromatography, Journal of the American Chemical Society, 104 (1982) 7573. open in new tab
  14. Cheng-Xiong Yang, Chang Liu, Yi-Meng Cao, Xiu-Ping Yan, Facile room temperature solution-phas e synthesis of a spherical covalent organic framework for high-resolution chromatographic separation, Chemical Communications, 51 (2015) 12254. open in new tab
  15. Sheng-Ming Xie, Li-Ming Yuan, Recent progress of chiral stationary phases for separation of enantiomers in gas chromatography, Journal of Separation Science, 40 (2017) 124. open in new tab
  16. Jun-Hui Zhang, Sheng-Ming Xie, Bang-Jin Wang, Pin-Gang He, Li-Ming Yuan, Highly selective separation of enantiomers using a chiral porous organic cage, Journal of Chromatography A, 1426 (2015) 174. open in new tab
  17. S.M. Xie, J.H. Zhang, N. Fu, B.J. Wang, L. Chen, L.M. Yuan, A chiral porous organic cage for molecular recognition using gas chromatography, Analytica Chimica Acta, 903 (2016) 156. open in new tab
  18. M. Raimondo, G. Perez, M. Sinibaldi, A.D. Stefanis, A.A.G. Tomlinson, Mesoporous M41S materials in capillary gas chromatography, Chemical Communications, 15 (1997) 1343. open in new tab
  19. J.H. Zhang, S.M. Xie, M. Zhang, M. Zi, P.G. He, L.M. Yuan, Novel inorganic mesoporous material wit h chiral nematic structure derived from nanocrystalline cellulose for high-resolution gas chromatographic separations, Analytical Chemistry, 86 (2014) 9595. open in new tab
  20. Kevin E. Shopsowitz, Hao Qi, Wadood Y. Hamad, Mark J. MacLachlan: Free-standing mesoporous silica films with tunable chiral nematic structures , Nature, 468 (2010) 422. open in new tab
  21. D. Chruszczyk, G.Boczkaj: Technik i i metody wyodrębniania, rozdzielania i oznaczania frak cji asfaltenowej w rafineryjnych strumieniach procesowych, Camera Separatoria, 7 (2015) 5. open in new tab
  22. G. Boczkaj, M. Momotko, D. Chruszczyk, A. Przyjazny, M. Kamiński, Novel stationary phases based on asphaltenes for gas chromatography, Journal of Separation Science, 39 (2016) 2527. open in new tab
  23. A. Miciak, M. Momotko, M. Plata-Gryl, G. Boczkaj, Badania właściwości asfaltenowej fazy stacjonarnej do rozdzielania mieszanin związk ów optycznie czynnych technik ą chromatografii gazowej, Camera Separatoria, 9 (2017) 5.
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