THE INVESTIGATION OF THE EFFECT OF GRAIN SIZE ON RAMAN AND 29Si MAS NMR SPECTRA OF BENTONITES FROM TURKEY
Abstract
There is a great deal of interest in clays in various fields of science and industry. In the literature, it can be easily seen that, vibrational spectroscopic particularly FT-IR and NMR methods have been widely employed for the scientific studies of clays. However, especially not much data is available for Raman spectrum since it is difficult to obtain a good and interpretable spectrum. Most of the time, particle size or grain size is not considered as an element which can affect the quality of the Raman and NMR spectra. In this paper, we prepared clay samples having different grain sizes obtained from Ünye region and we observed the effect on the Raman and 29Si NMR spectral quality.
References
- Grim RE, Güven N.Bentonites, Geology, Mineralogy, Properties and Uses: Development in Sedimentology, Elsevier, Amsterdam, 1978.
- Tabak A, Yilmaz N, Eren E, Caglar B, Afsin B, Sarihan A. Structural analysis of naproxen- intercalated bentonite (Unye). Chem Eng J 2011; 174: 281-288.
- Newman ACD. Chemistry of Clays and Clay Minerals, Longman Scientific &Technical / Mineralogical Society, London, 1987.
- Murray HH. Overview-clay mineral applications. Appl Clay Sci 1991; 5: 379-395.
- Murray HH. Applied Clay Mineralogy Today and Tomorrow. Clay Miner 1999; 34: 39-49.
- Murray HH. Traditional and New Applications for Kaolin, Smectite, and Palygorskite: A general overview. Appl Clay Sci 2000; 17: 207-221.
- Gashimov AM, Gasanov MA. Effect of the particle size of montmorillonite-containing bentonite clay on its charge state as induced by electric discharges. Russ J Phys Chem A 2012; 86(2): 311-313.
- Kozaki T, Sato Y, Nakajima M, Kato H, Sato S, Ohashi H. Effect of particle size on the diffusion behavior of some radionuclides in compacted bentonite. J Nucl Mater 1999; 270: 265-272.
- Donat R, Akdogan A, Erdem E, Cetisli H. Thermodynamics of Pb2+ and Ni2+ adsorption onto natural bentonite from aqueous solutions. J Colloid and Interf Sci 2005; 286: 43–52.
- Alver Ö, Erdoğan Alver, B. Fourier Transform Infrared, Solid-State Nuclear Magnetic Resonance, and X-Ray Diffraction Studies of Natural and Acid-Treated Bentonites from Turkey. Spectrosc Lett ; 46: 128-132. Frost RL, Rintoul L. Lattice vibrations of montmorillonite: an FT-Raman and X-ray diffraction study. Appl Clay Sci 1996; 11: 171-183.
- Bishop JL, Murad E. Characterization of minerals and biogeochemical markers on Mars: A Raman and IR spectroscopic study of montmorillonite. J Raman Spectrosc 2004; 35: 480-486.
- Kyi N, Win DT. Group Theory Applications: Infra-red Spectral Assignment. AU Journal of Tech ; 5(2): 59-65. Benharrats N, Belbachir M, Legrand AP, D’Espinose de la Caillerie J.B. 29Si and 27Al MAS NMR study of the zeolitization of kaolin by alkali leaching. Clay Miner 2003; 38: 49-61.
THE INVESTIGATION OF THE EFFECT OF GRAIN SIZE ON RAMAN AND 29Si MAS NMR SPECTRA OF BENTONITES FROM TURKEY
Abstract
Bilim ve endüstri alanında killere oldukça yoğun bir ilgi vardır. Literatürde; titreşim spektroskopisi ve özellikle FT-IR ve NMR spektroskopik yöntemlerinin, killer üzerine olan bilimsel çalışmalarda sıklıkla kullanıldığı görülmektedir. Buna karşın yorumlanabilir bir spektrum eldesinin güç oluşundan dolayı özellikle Raman spektrumlarına aynı sıklıkta rastlanılmamaktadır. Çoğu zaman, birçok çalışmada parçacık boyutu Raman ve NMR spektrumlarının kalitesine tesir eden bir unsur olarak ele alınmaz. Bu çalışmada Ünye yöresinden elde edilen killer için farklı parçacık boyutlarına sahip numuneler hazırlanmış, Raman ve 29Si NMR spektrumları alınmış ve parçacık boyutunun spektrumlar üzerine tesiri incelenmiştir
References
- Grim RE, Güven N.Bentonites, Geology, Mineralogy, Properties and Uses: Development in Sedimentology, Elsevier, Amsterdam, 1978.
- Tabak A, Yilmaz N, Eren E, Caglar B, Afsin B, Sarihan A. Structural analysis of naproxen- intercalated bentonite (Unye). Chem Eng J 2011; 174: 281-288.
- Newman ACD. Chemistry of Clays and Clay Minerals, Longman Scientific &Technical / Mineralogical Society, London, 1987.
- Murray HH. Overview-clay mineral applications. Appl Clay Sci 1991; 5: 379-395.
- Murray HH. Applied Clay Mineralogy Today and Tomorrow. Clay Miner 1999; 34: 39-49.
- Murray HH. Traditional and New Applications for Kaolin, Smectite, and Palygorskite: A general overview. Appl Clay Sci 2000; 17: 207-221.
- Gashimov AM, Gasanov MA. Effect of the particle size of montmorillonite-containing bentonite clay on its charge state as induced by electric discharges. Russ J Phys Chem A 2012; 86(2): 311-313.
- Kozaki T, Sato Y, Nakajima M, Kato H, Sato S, Ohashi H. Effect of particle size on the diffusion behavior of some radionuclides in compacted bentonite. J Nucl Mater 1999; 270: 265-272.
- Donat R, Akdogan A, Erdem E, Cetisli H. Thermodynamics of Pb2+ and Ni2+ adsorption onto natural bentonite from aqueous solutions. J Colloid and Interf Sci 2005; 286: 43–52.
- Alver Ö, Erdoğan Alver, B. Fourier Transform Infrared, Solid-State Nuclear Magnetic Resonance, and X-Ray Diffraction Studies of Natural and Acid-Treated Bentonites from Turkey. Spectrosc Lett ; 46: 128-132. Frost RL, Rintoul L. Lattice vibrations of montmorillonite: an FT-Raman and X-ray diffraction study. Appl Clay Sci 1996; 11: 171-183.
- Bishop JL, Murad E. Characterization of minerals and biogeochemical markers on Mars: A Raman and IR spectroscopic study of montmorillonite. J Raman Spectrosc 2004; 35: 480-486.
- Kyi N, Win DT. Group Theory Applications: Infra-red Spectral Assignment. AU Journal of Tech ; 5(2): 59-65. Benharrats N, Belbachir M, Legrand AP, D’Espinose de la Caillerie J.B. 29Si and 27Al MAS NMR study of the zeolitization of kaolin by alkali leaching. Clay Miner 2003; 38: 49-61.
Details
| Journal Section | Articles |
|---|---|
| Authors | |
| Publication Date | April 25, 2016 |
| Published in Issue | Year 2016 Volume: 17 Issue: 1 |
