Crystallochemistry of Fe-rich palygorskite from eastern China

Clay Minerals

Volumn 42, Issue 4, 2007, Pages 453-461

  Li, Z ^a   He, K ^a   Yin, L ^a,b   Xiong, F ^c   Zheng, Y C ^a  

^a NANJING UNIVERSITY   (China)

^b Research Center of Engineer Technical of Attapulgite   (China)

^c Luoyang College of Technology   (China)

Author keywords

Fe rich; FTIR; M ssbauer; Octahedral occupancy; Palygorskite

Indexed keywords

FOURIER TRANSFORM INFRARED SPECTROSCOPY; IRON; MOSSBAUER SPECTROSCOPY; VIBRATIONS (MECHANICAL);

CRYSTALLOCHEMISTRY; OCTAHEDRAL OCCUPANCY; PALYGORSKITE;

CLAY MINERALS;

CRYSTAL CHEMISTRY; CRYSTAL STRUCTURE; FTIR SPECTROSCOPY; IRON; MOSSBAUER SPECTROSCOPY; PALYGORSKITE;

ASIA; CHINA; EURASIA; FAR EAST; JIANGSU;

EID: 40449139714     PISSN: 00098558     EISSN: None     Source Type: Journal    
DOI: 10.1180/claymin.2007.042.4.03     Document Type: Article

References (28)

1. Augsburger M.S., Predregosa J.C., Strasser E., Perino E. & Mercader R.C. (1998) FTIR and Mössbauer investigation of a substituted palygorskite: silicate with a channel structure. Journal of Physics and Chemistry of Solids, 59, 175-185.
2. Bailey S.W. (1984) Structure of layer silicates. Pp. 2-115 in: Crystal Structures of Clay Minerals and their X-ray Identification (G.W. Brindley & G. Brown, editors). Monograph 5, Mineralogical Society, London.
3. Blanco C., González F., Pesquera C., Benito I., Mendioroz S. & Pajares J.A. (1989) Difference between one aluminic palygorskite and another magnesic by infrared spectroscopy. Spectroscopy Letters, 22, 659-673.
4. Blanco C., Herrero J., Mendioroz S. & Pajares J.A. (1988) Infrared studies of surface acidity and reversible folding in palygorskite. Clays and Clay Minerals, 36, 659-673.
5. Bradley W.F. (1940) The structural scheme of attapulgite. American Mineralogist, 25, 405-410.
6. Cai Y. & Xue J. (2001) Composition and infrared spectra of Guanshan palygorskite clay (in Chinese). Acta Mineralogica Sinica, 21, 323-329.
7. Cai Y. & Xue J. (2004) Dissolution behavior and dissolution mechanism of palygorskite in HCl solution. Progress in Natural Science, 14, 235-240.
8. Chahi A., Petit S. & Decarreau A. (2002) Infrared evidence of dioctahedral-trioctahedral site occupancy in palygorskite. Clays and Clay Minerals, 50, 306-313.
9. Drits V.A. & Aleksandrova V.A. (1966) The crystallo-chemical nature of palygorskite. Zapiske Vsesoyuznogo Mineralogecheskogo Obtechestva, 95, 551-560.
10. Drits V.A. & Sokolova G.V. (1971) Structure of palygorskite. Soviet Physica Crystallographiya, 16, 183-185.
11. Farmer V.C. (1974) The layer silicates. Pp. 331-364 in: The Infrared Spectra of Minerals. Monograph 4, Mineralogical Society, London.
12. Galán E. & Carretero I. (1999) A new approach to composition limits for sepiolite and palygorskite. Clays and Clay Minerals, 47, 399-409.
13. García-Romero E., Suárez M. & Bustillo M.A. (2004) Characteristics of a Mg-palygorskite in Miocene rocks, Madrid Basin (Spain). Clays and Clay Minerals, 52, 484-494.
14. Gionis V., Kacandes G.H., Kastritis I.D. & Chryssikos G.D. (2006) On the structure of palygorskite by mid- and near-infrared spectroscopy. American Mineralogist, 91, 1125-1133.
15. Güven N. (1992) The coordination of aluminum ions in the palygorskite structure. Clays and Clay Minerals, 40, 457-461.
16. Heller-Kallai L. & Rozenson I. (1981a) The use of Mössbauer spectroscopy of Fe in clay mineralogy. Physics and Chemistry of Minerals, 7, 223-238.
17. Heller-Kallai L. & Rozenson I. (1981b) Mössbauer studies of palygorskite and some aspects of palygorskite mineralogy. Clays and Clay Minerals, 29, 226-232.
18. Khorami J. & Lemieux A. (1989) Comparison of attapulgites from different sources using TG/DTG and FTIR. Thermochimica Acta, 138, 97-105.
19. Long D.G.F., McDonald A.M. & Yi F. (1997) Palygorskite in palaeosols from the Miocene Xiaocaowan Formation of Jiangsu and Anhui Provinces, P.R. China. Sedimentary Geology, 112, 281-295.
20. Madejová J. & Komadel P. (2001) Baseline studies of the Clay Minerals Society source clays: infrared studies. Clays and Clay Minerals, 49, 410-432.
21. Pushpaletha P., Rugmini S. & Lalithambika M. (2005) Correlation between surface properties and catalytic activity of clay catalysts. Applied Clay Science, 30, 141-153.
22. Russell J.D. & Fraser A.R. (1994) Infrared methods. Pp. 11-67 in: Clay Mineralogy: Spectroscopic and Chemical Determinative Methods (M.J. Wilson, editor). Chapman & Hall, London.
23. Serna C., VanScoyoc G.E. & Ahlrichs J.L. (1977) Hydroxyl groups and waters in palygorskite. American Mineralogist, 62, 784-792.
24. Suárez M. & García-Romero E. (2006) FTIR spectroscopic study of palygorskite: influence of the composition of the octahedral sheet. Applied Clay Science, 31, 154-163.
25. Van Scoyoc G.E., Serna. C. & Ahlrichset J.L. (1979) Structural changes in palygorskite during dehydration and dehydroxylation. American Mineralogist, 64, 215-223.
26. 27Al nuclear magnetic resonance spectroscopy. American Mineralogist, 74, 203-215.
27. Xiong F., Yin L. & Cai Y. (2005) Quantitative analysis of X-ray diffraction for palygorskite within attapulgite clay (in chinese). Geological Journal of China Universities, 11, 453-458.
28. Zheng Z. (1997) The chemistry of palygorskite clays. Pp. 26-45 in: Palygorskites of China (Z.L. Zheng and J.X. Song, editors). Geological Press, Beijing, (in Chinese).