Abstract
A comprehensive review of DTA of organo-clays has recently been published by Langier-Kuzniarowa (2001). We therefore decided that this chapter should not be just a collection of data from the literature but rather, a critical overview.
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References
Allaway, W. H. (1949) Differential thermal analysis of clays treated with organic cations as an aid in the study of soil colloids. Soil Sci. Soc. Am. Proc. 13, 183–188.
Ballantine, J. A., Graham, P., Patel, I., Purnell, J. H., and Williams, K. J. (1987) New differential thermogravimetric method using cyclohexylamine for measuring the concentration of interlamellar protons in clay catalyst, In: Proc. 8 th Intern. Clay Conf., Denver, 1985 (L. G. Schultz, H. Van Olphen, and F. A. Mumpton, eds.) pp. 311–318.
Bodenheimer, W., Kirson, B., and Yariv, S. (1963a) Organometallic clay complexes. Part I. Israel J. Chem. 1, 69–78.
Bodenheimer, W., Heller, L., Kirson, B., and Yariv, S. (1963b) Organometallic clay complexes. Part III. In Proc. 1 st Intern. Clay Conf., Stockholm, 1963 (I. Th. Rosenqvist, ed.), 2: 351–363.
Bodenheimer, W., Heller, L., Kirson, B., and Yariv, S. (1963c) Organo-metallic clay complexes. Part IV. Nickel and Mercury aliphatic polyamines. Israel J. Chem. 1, 391–403.
Bodenheimer, W., Heller, L., and Yariv, S. (1966a) Organometallic clay complexes. Part IV Copper montmorillonite-alkylamine. In Proc. 2 nd Intern. Clay Conf., Jerusalem, 1966 (Weiss, A., and Heller, L., eds.), 1, 251–261.
Bodenheimer, W., Heller, L., and Yariv, S. (1966b) Infrared study of copper montmorillonite-alkylamine. In Proc. 2 nd Intern. Clay. Conf, Jerusalem, 1966 (Weiss, A., and Heller, L., eds.), 2, 171–174.
Bodenheimer, W., Heller, L., and Yariv, S. (1966c) Organo-metallic clay complexes. VII. Thermal analysis of montmorillonite-diamine and glycol complexes. Clay Min. 6, 167–177.
Bodenheimer, W. and Heller, L. (1968) Sorption of methylene-blue by montmorillonite saturated with different cations. Israel J. Chem. 6, 409–416.
Bradley, W. F., and Grim, R. E. (1948) Colloid properties of layer silicates. J. Phys. Chem. 52, 1404–1413.
Breen, C. (1991a) Thermogravimetric study of the desorption of cyclohexylamine and pyridine from an acid-treated Wyoming bentonite. Clay Miner. 26, 473–486.
Breen, C. (1991b) Thermogravimetric and infrared study of the desorption of butylamine, cyclohexylamine and pyridine from Ni- and Co-exchanged montmorillonite. Clay Miner. 26, 487–496.
Breen C. (1994) Thermogravimetric, infrared and mass spectroscopic analysis of the desorption of tetrahydropyran, tetrahydrofuran and 1, 4-dioxan from montmorillonite. Clay Miner. 29, 115–121.
Breen, C., Deane, A. T., and Flynn, J. J. (1987) The activity of trivalent cation-exchanged montmorillonite. Temperature-programmed desorption and infra-red studies of pyridine and N-butylamine. Clay Miner. 22, 169–178.
Breen, C., Flynn, J. J., and Parkes, G. M. B. (1993) Thermogravimetric, infrared and mass-spectroscopic analysis of the desorption of methanol, propan-1-ol, propan-2-ol and 2-methylpropan-2-ol from montmorillonite. Clay Miner. 28, 123–137.
Bruque, S., Moreno-Real, L., Mozas, T., and Rodriguez-Garcia, A. (1982) Interlayer complexes of lan- thanide-montmorillonites with amines. Clay Miner. 17, 201–208.
Carthew, A. R. (1995) Use of piperdine saturation in the identification of clay minerals by differential thermal analysis. Soil Sci. 80, 337–347.
Cebulak, S., and Langier-Kuzniarowa, A. (1997) Application of oxyreactive thermal analysis to the examination of organic matter associated with rocks. J. Thermal Anal. 50, 175–190.
Cebulak, S., and Langier-Kuzniarowa, A. (1998) Some remarks on methodology of thermal analysis of clay minerals. J. Thermal Anal. 53, 375–381.
Cebulak, S., Langier-Kuzniarowa, A., and Grotek, I. (2002) The application of the OTA of kerogen to the evaluation of the rockmass heating. J. Thermal Anal. Calor. 69, 227–235.
Chi-Chou, C., and McAtee, J. L. (1969) Thermal decomposition of organo-ammonium compounds exchanged onto montmorillonite and hectorite. Clays Clay Miner. 17, 339–346.
Eltantawy, I. M. (1974) Differential Thermal micro-analysis (DTMA) of clay-organic molecule complexes. Bull. Groupe Fr. Argiles 26, 211–218.
Garfinkel-Shweky, D., and Yariv, S. (1997) The determination of surface basicity of the oxygen planes of expanding clay minerals by acridine orange. J. Colloid Interface Sci. 188, 168–175.
Greene-Kelly, R. (1957) The montmorillonite minerals (smectites). In: The Differential Thermal Investigation of Clays (R. C. Mackenzie, ed.). Mineralogical Society, London, pp. 140–164.
Hayes, M. H. B., and Mingelgrin, U. (1991) Interactions between small organic chemicals and soil colloid constituents. In: Interactions at the Soil Colloid-Soil Solution Interface (Bolt G H., ed.). Kluwer Academic Publishers, Amsterdam, pp. 323–407.
Heller, L., and Yariv, S. (1970). Anilinium-montmorillonite and the formation of ammonium/amine associations. Israel J. Chem. 8, 391–397.
Heller-Kallai, L., and Yariv, S. (1981) Swellling of montmorillonite containing coordination complexes of amines with transition metal cations. J. Colloid Interface Sci. 79, 479–485.
Heller-Kallai, L., Yariv, S., and Friedman, I. (1986) Thermal analysis of the interaction between stearic acid and pyrophyllite or talc. IR and DTA studies. J. Thermal Anal. 31, 95–106.
Hermosin, M. C., Cornejo, J., and Perez-Rodriguez, J. L. (1985) Interactions of chlorodimeform with montmorillonite. Clay Miner. 20, 153–162.
Hill, J. O., ed. (1991) For Better Thermal Analysis and Calorimetry, Edition III. International Confederation for Thermal Analysis. Bundoora, Australia.
Jordan, J. W. (1949) Alteration of the Properties of Bentonite by Reaction with Amines. Mineralog. Mag. 28, 598–605.
Lacher, M., Lahav, N., and Yariv, S. (1993). Infrared study of the effects of thermal treatment of montmorillonite-benzidine complexes. II. Li-, Na-, K-, Rb- and Cs-montmorillonite. J. Thermal Anal. 40, 41–57.
Lagaly, G (1984) Clay organic reactions. Phil. Trans. Royal Soc. London, A311, 315–332.
Lagaly, G (1993) Reaktionen der Tonmineral. In: Tonminerale und Tone (Jasmund, K., and Lagaly, G., eds.). Steinkopff Verlag, Darmstadt, pp. 89–167.
Landau, A., Zaban, A, Lapides, I and Yariv, S. (2002) Simultaneous DTA-TG study of montmorillonite mechanochemically treated with Rhodamine-6G J. Thermal Anal. Calor., in press.
Langier-Kuzniarowa, A. (1989) The present state of thermal investigations of clays. Thermochim. Acta 148, 413–420.
Langier-Kuzniarowa, A. (1991) Remarks on the applicability of thermal analysis for the investigation of clays and related materials. In: Lecture Notes in Earth Sciences 38, Thermal Analysis in the Geosciences. (Smykatz-Kloss, W., and Warne, S. St. J., eds.) Springer Verlag, Berlin, pp. 314–326.
Langier-Kuzniarowa, A. (2001) Thermal Analysis of organo-clay complexes. In:Organo Clay Complexes and Interactions (Yariv, S. and Cros, H. eds.) Marcel Dekker, Inc., New York, pp. 273–344.
Libor, O., Graber, I., and Donath, E. P. (1971) Montmorillonite contacting urea. II. Thermal examination of sodium- and hydrogen-montmorillonite containing urea. Acta Mineralogica-Petrographica (Szeged), 20, 97–106.
Mackenzie, R. C., ed. (1957) The Differential Thermal Investigation of Clays. Mineralogical Society (Clay Minerals Group), London.
Mackenzie, R. C. (1970) Simple phyllosilicates based on gibbsite- and brucite-like sheets. In: Differential Thermal Analysis (R. C. Mackenzie, ed.), 1. Academic Press, London, pp. 497–537.
Martin Vivaldi, J. L., and Fenoll Hach-Ali, P. (1970) Palygorskites and sepiolites (hormites). In: Differential Thermal Analysis (R. C. Mackenzie, ed.), 1. Academic Press, London, pp. 553–573.
McNeal, B. L. (1964) Effect of exchangeable cations on glycol retention by clay minerals. Soil Sci. 97, 96–102.
Mitchell, B. D., and Birnie, A. C. (1970) Organic Compounds. In: Differential Thermal Analysis (R. C. Mackenzie, ed.), 1. Academic Press, London, pp. 611–641.
Morgan, D. J., Warrington, S. B., and Warne, S. St. J. (1988) Earth sciences applications of evolved gas analysis: A review. Thermochim Acta 135, 207–212.
Morillo, E., Perez-Rodriguez, J. L., and Maqueda, C. (1991) Mechanism of interaction between mont-morillonite and 3-aminotriazole. Clay Miner. 26, 269–279.
Mortland, M. M. (1970) Clay organic complexes and interactions. Adv. Agronomy 22, 75–117.
Müller-Vonmoos, M., Kahr, G and Rub, A. (1977) DTA-TG-MS in the investigation of clays. Quantitative determination of water, carbon monoxide and carbon dioxide by evolved gas analysis with mass spectrometer. Thermochim. Acta 20, 386–393.
Oades, J. M., and Townsend, W. N. (1963) The use of piperdine as an aid to clay-mineral identification. Clay Miner. Bull. 5, 177–182.
Ovadyahu, D., Yariv, S., and Lapides, I., and Deutsch, Y. (1998) Mechanochemical adsorption of phenol by TOT swelling clay minerals. II. Simultaneous DTA and TG study. J. Thermal Anal. 51, 431–447.
Paulik, F. (1995) Special Trends in Thermal Analysis. John Wiley and Sons, Chichester.
Paulik, F., Paulik, J., Arnold, M., Inczedy, J., Kristof, J., and Langier-Kuzniarowa, A. (1989) Simultaneous TG, DTG, DTA and EGA examination of argillaceous rocks. Part I. J. Thermal Anal. 25, 1849–1860.
Pefferkorn, E. (1997) Structure and stability of natural organic matter/soil complexes and related synthetic and mixed analogues. Adv. Colloid Interface Sci. 73, 127–200.
Perez-Rodriguez, J. L. and Maqueda, C. (2001) Interactions of vermiculites with organic compounds. In: Organo-clay complexes and interactions (Yariv, S and Cross, H., eds.) Marcel Dekker Inc. New York, pp. 113–173.
Ramachandran, V. S., Garg, S. P., and Kacker, K. P. (1961a) Mechanism of thermal decomposition of organo-montmorillonites. Chem. Indust. 790–792.
Ramachandran, V. S., Kacker, K. P. and Patwardhan, N. K. (1961b) Basic dyestuffs in clay mineralogy. Nature 191, 696.
Ramachandran, V. S., and Kacker, K. P. (1964) The thermal decomposition of dye-clay mineral complexes. J. Appl. Chem. 14, 455–460.
Rausell-Colom, J. A., and Serratosa, J. M. (1987) Reactions of clays with organic substances: In: Chemistry of Clays and Clay Minerals (Newman, A. C. D., ed.). The Mineralogical Society, London, pp. 371–422.
Shoval, S., and Yariv, S. (1979) The interaction between Rounup (glyphosate) and montmorillonite. Part II. Ion exchange and sorption of iso-propylammonium by montmorillonite. Clays Clay Miner. 27, 29–38.
Shuali, U., Yariv, S., Steinberg, M., Müller-Vonmoos, M., Kahr, G, and Rub, A. (1988) Thermal analysis study of the adsorption of D2O by sepiolite and palygorskite. Thermochim. Acta 135, 291–297.
Shuali, U., Yariv, S., Steinberg, M., Müller-Vonmoos, M., Kahr, G, and Rub, A. (1990) Thermal analysis of sepiolite and palygorskite treated with butylamine. Clay Miner. 25, 107–119.
Shuali, U., Yariv, S., Steinberg, M., Müller-Vonmoos, M., Kahr, G, and Rub, A. (1991) Thermal analysis of pyridine-treated sepiolite and palygorskite. Clay Miner. 26, 497–506.
Smykatz-Kloss, W. (1974) Dijferntial Thermal Analysis. Application and Results in Mineralogy, Springer Verlag, Berlin.
Smykatz-Kloss, W., Heil, A., Kaeding, L., and Roller, E. (1991a) Thermal analysis in environmental studies. In: Lecture notes in Earth Sciences. 38, Thermal Analysis in the Geosciences. (Smykatz-Kloss, W., and Warne, S. St. J., eds.) Springer Verlag, Berlin, pp. 352–367.
Sofer, Z., Heller, L., and Yariv, S. (1969) Sorption of indoles by montmorillonite. Israel J. Chem. 7, 697–712.
Sonobe, N., Kyotani, T., Hishiyama, Y, Shiraishi, M., and Tomita, A. (1988a) Formation of highly oriented graphite from poly(acrylonitrile) prepared between the lamellae of montmorillonite J. Phys. Chem. 92, 7029–7034.
Sonobe, N., Kyotani, T., and Tomita, A. (1988b) Carbonization of polyacrilonitrile in a two dimensional space between montmorillonite lamellae. Carbon 26, 573–578
Sonobe, N., Kyotani, T., and Tomita, A. (1990) Carbonization of poly(furfuryl alcohol) and polyvinyl acetate) between the lamellae of montmorillonite. Carbon 28, 483–488.
Sonobe, N., Kyotani, T., and Tomita, A. (1991) Formation of graphite thin film from poly(furfuryl alcohol) and poly(vinyl acetate) carbons prepared between the lamellae of montmorillonite. Carbon 29, 61–67.
Theng, B. K. G. (1974) The Chemistry of Clay-Organic Reactions. Adam Hilger, London.
Theng, B. K. G. (1979) Formation and Properties of Clay-Polymer Complexes. Elsevier, Amsterdam.
Thielman, V. J. and McAtee, J. L. Jr. (1975) The relationship between structural properties of metal-tris (Ethylenediamine) Montmorillonite and their behavior as gas chromatographic packing materials. Clays Clay Miner. 23, 173–180.
Weiss, A. (1969) Organic derivatives of clay minerals. In: Organic Geochemistry (Eglinton, G, and Murphy, M. T. J., eds.). Springer-Verlag, Berlin, pp. 737–781.
Yariv, S., Bodenheimer, W., and Heller L. (1964) Organometallic-clay complexes. Part V. Fe (III)-pyrocatechol. Israel J. Chem. 2, 201–208.
Yariv, S., Birnie, A. C., Farmer, V. C., and Mitchell, B. D. (1967) Interactions between organic substances and inorganic diluents in DTA. Chem. Ind. 38, 1744–1745.
Yariv, S., Heller, L., Sofer, Z., and Bodenheimer, W. (1968) Sorption of aniline by montmorillonite. Israel J. Chem. 6, 741–756.
Yariv, S., Heller, L., and Kaufherr, N. (1969) Effect of acidity in montmorillonite interlayers on the sorption of aniline derivatives. Clays Clay Miner. 17, 301–308.
Yariv, S., Heller, L., Deutsch, Y, and Bodenheimer, W. (1972) DTA of various cyclohexylammonium smectites. Proceedings of the ICTA Third International Conference on Thermal Analysis 3 (H. G Wiedemann, ed.), Davos Aug. 23–28, 1971. Birkhauser Verlag, Basel, pp. 663–674.
Yariv, S., and Cross, H. (1979) Geochemistry of Colloid Systems. Springer-Verlag, Berlin.
Yariv, S., and Shoval, S. (1982) The effects of thermal treatment on associations between fatty acids and montmorillonite. Israel J. Chem. 22, 259–265.
Yariv, S., and Heller-Kallai, L. (1984) Thermal treatment of sepiolite- and palygorskite-stearic acid association. Chem. Geol. 45, 313–327.
Yariv, S. (1985) Study of the adsorption of organic molecules on clay minerals by differential thermal analysis. Thermochim. Acta 88, 49–68.
Yariv, S., Heller-Kallai, L., and Deutsch, Y (1988a) Adsorption of stearic acid by allophane. Chem. Geol. 68, 199–206.
Yariv, S., Kahr, G, and Rub, A. (1988b) Thermal analysis of the adsorption of rhodamine 6G by smectite minerals. Thermochim. Acta 135, 299–306.
Yariv, S., Müller-Vonmoos, M., Kahr, G, and Rub, A. (1989a) Thermal analytic study of the adsorption of crystal violet by montmorillonite. Thermochim, Acta 148, 457–466.
Yariv, S., Müller-Vonmoos, M., Kahr, G, and Rub, A. (1989b) Thermal analytic study of the adsorption of crystal violet by laponite. J. Thermal Anal. 35, 1941–1952.
Yariv, S., Müller-Vonmoos, M., Kahr, G, and Rub, A. (1989c) Thermal analytic study of the adsorption of acridine orange by smectite minerals. J. Thermal Anal. 35, 1997–2008.
Yariv, S. (1990) Combined DTA-mass spectroscopy of organo-clay complexes. J. Thermal Anal. 36, 1953–1961.
Yariv, S. (1991) Differential thermal analysis (DTA) of organo-clay complexes. In: Lecture Notes in Earth Sciences 38, Thermal Analysis in the Geosciences. (Smykatz-Kloss, W., and Warne, S. St. J., eds) Springer-Verlag, Berlin, pp. 328–351.
Yariv, S. (1992a) The effect of tetrahedral substitution of Si by Al on the surface of acidity of the oxygen plane of clay minerals. Int. Rev. Phys. Chem. 11, 345–375.
Yariv, S. (1992b) Wettability of clay minerals. In: Modern Approaches to Wettability (Schrader, M. E., and Loeb, G, eds.). Plenum Press, New York, pp. 279–326.
Yariv, S., Ovadyahu, D., Nasser, A., Shuali, U., and Lahav, N. (1992) Thermal analysis study of heat of dehydration of tributylammonium smectites. Thermochim. Acta 207, 103–113.
Yariv, S., and Michaelian, K. H. (1997) Surface acidity of clay minerals. Industrial examples. Schrifenr. Angew. Geowiss. 1, 181–190.
Yariv, S., and Lapides, I. (2000) The effect of mechanochemical treatments on clay minerals and the mechanochemical adsorption of organic materials onto clay minerals. J. Materials Synthesis Processing 8, 223–233.
Yariv, S. (2001a) Introduction to Organo-Clay Complexes and Interactions. In: Organo-clay complexes and interactions (Yariv, S and Cross, H., eds.) Marcel Dekker Inc., New York, pp. 39–111.
Yariv, S. (2001b) IR Spectroscopy and Thermo-IR Spectroscopy in the Study of the Fine Structure of Organo-Clay Complexes. In: Organo-clay complexes and interactions (Yariv, S and Cross, H., eds.) Marcel Dekker Inc., New York, pp. 345–462.
Yariv, S. (2001c) Staining or Clay Minerals and Visible Absorption Spectroscopy of Dye-Clay Complexes. In: In: Organo-clay complexes and interactions (Yariv, S and Cross, H., eds.) Marcel Dekker Inc., New York, pp. 463–566.
Yariv, S., and Michaelian, K. H. (2001) Structure and Surface Acidity of Clay Minerals. In: Organo-clay complexes and interactions (Yariv, S and Cross, H., eds.) Marcel Dekker Inc., New York, pp. 1–38.
Yariv, S. and Cross, H. (2001) Organo Clay Complexes and Interactions. Marcel Dekker, Inc., New York.
Yermiyahu, Z., Lapides, I and Yariv, S. (2002) Thermo-XRD analysis of the adsorption of congo-red by montmorillonite saturated with different cations. J. Thermal Anal. Calor. 69, 317–332.
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Yariv, S. (2003). Differential Thermal Analysis (DTA) in the Study of Thermal Reactions of Organo-Clay Complexes. In: Ikan, R. (eds) Natural and Laboratory-Simulated Thermal Geochemical Processes. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-0111-2_8
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