Abstract
In the field of Biopoesis which is concerned with the abiotic events leading to the origin of life, organic derivatives of minerals are of increasing interest. They allow, inter alia, the accumulation of organic matter, the stabilization of metastable compounds by means of complex formation, or the alteration of organic material by catalysis. Of special interest are those minerals which either due to small particle size exhibit large surface areas or for structural reasons have boundary surfaces inside the crystal which are easily accessible from the outside. For this reason, the present work will principally be concerned with minerals that exhibit the aforementioned characteristics. They include within the silicates, minerals such as montmorillonites, vermiculites, micas, swelling chlorites, kaolinite, mixed layer minerals, and zeolites with a wide open channel network. In addition, organic derivatives of uranium mica, swelling vanadates and phosphates, and hydroxyaluminates will briefly be discussed. In view of the fact that little is known on naturally occurring allophanes, these amorphous compounds are just mentioned.
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References
Deuel, H., G. Huber u. R. Ibey: Organische Derivate von Tonmineralien. Helv. Chim. Acta 33, 1229–1232 (1950).
Deuel, H., Organic derivatives of clay minerals. Clay Minerals Bull. 1, 205–211 (1952).
Weiss, A.: Der Kationenaustausch bei den Mineralen der Glimmer-, Vermikulit- und Montmorillonitgruppe. Z. Anorg. Allgem. Chem. 297, 257–286 (1958).
Weiss, A.: Der Kationenaustausch bei Kaolinit. Z. Anorg. Allgem. Chem. 299, 92–120 (1959).
Aragon de la Cruz, F.: Interlamellar sorption in a methylated montmorillonite. Nature 205, 381–382 (1965).
Aragon de la Cruz, F., and R. Espinoza: Interlamellar sorption in a “ pheny 1-montmorillonite”. Proc. Intern. Clay Conf. Jerusalem (1), 247–250 (1966).
Weiss, A., G. Reiff u. Al. Weiss: Zur Kenntnis wasserbeständiger Kieselsäureester. Z. Anorg. Allgem. Chem. 311, 151 (1961).
Muetterties, E. L., and C. M. Wright: Tropolone and aminotroponium derivatives of the main group elements. J. Am. Chem. Soc. 86, 5132–5137 (1964).
Weiss, A., and A. Herzog: Thujaplicin-Komplexe der Kieselsäure. In: Diplomarbeit, A. Herzog, Heidelberg 1967.
Flegman, A. W.: Adsorption of sodium dodecyl sulfate by kaolinite. Intern. Clay Conf. Proc. Conf. Stockholm (1963) 333–336 (publ. 1965).
Weiss, A., A. Mehler, G. Koch u. U. Hofmann: Über das Anionenaustauschvermögen der Tonmineralien. Z. Anorg. allgem. Chem. 284, 247–271 (1956).
Smith, C. R.: Base-exchange reactions of bentonites and salts of organic bases. J. Am. Chem. Soc. 56, 1561–1563 (1934).
Hendricks, S. B.: Base-exchange of the clay mineral montmorillonite for organic cations and its dependence upon adsorptions due to van der Waals’ forces. J. Phys. Chem. 45, 65–81 (1941).
Erbring, H., u. H. Lehmann: Austauschreaktionen an Na-Bentoniten mit großvolumigen organischen Kolloidionen. Kolloid-Z. 107, 201–205 (1944).
Grim, R. E., W. H. Allaway, and F. L. Cuthbert: Reaction of different clay minerals with some organic cations. J. Am. Ceram. Soc. 30,137–142 (1947).
Allaway, W. H.: Differential thermal analysis of clays treated with organic cations as an acid in the study of soil colloids. Soil Sci. Soc. Am. Proc. 13,183–188 (1949).
Weiss, A., A. Mehler u. U. Hofmann: Kationenaustausch und innerkristallines Quellungs vermögen bei den Mineralen der Glimmergruppe. Z. Naturforsch. 11b, 435–438 (1956).
Cowan, C. T., and D. White: The mechanism of exchange reactions occurring between sodium montmorillonite and various N-primary amine salts. Trans. Faraday Soc. 54, 691–697 (1958).
Weiss, A., E. Michel u. Al. Weiss: Über den Einfluß von asserstoffbrückenbindungen auf ein- und zweidimensionale innerkristalline Quellungsvorgänge. In: Hydrogen bonding, p. 495–508. Pergamon Press 1958.
Weiss, A., u. G. Roloff: Die Rolle organischer Derivate von glimmerartigen Schichtsilikaten bei der Bildung von Erdöl. Internat. Clay Conf. Stockholm, vol. 2,1963, p. 373–378. Pergamon Press (pub. 1964).
Bradley, W. F.: Molecular associations between montmorillonite and some polyfunctional organic liquids. J. Am. Chem. Soc. 67, 975–981 (1945).
Bradley, W. F., R. A. Rowland, E. J. Weiss, and C. E. Weaver: Temperature stabilities of montmoril lonite- and vermiculite-glycol complexes. Natl. Acad. Sci. Natl. Res. Council, Publ. No 566, 348–355 (1958).
Brindley, G. W., and M. Ruston: Adsorption and retention of organic material by montmorillonite in the presence of water. Am. Mineralogist 43, 627–640 (1958).
Brindley, G.W.,and S. Ray: Clay-organic studies. VIII. Complexes of Ca-montmorillonite with primary monohydric alcohols. Am. Mineralogist 49, 106–115 (1964).
McEwan, D. M. C.: Complexes of clays with organic compounds. I. Complex formation between montmorillonite and halloysite and certain organic liquids. Trans. Faraday Soc. 44, 349–367 (1948).
Weiss, A., u. U. Hofmann: Batavit. Z. Naturforsch. 6 b, 405–409 (1951).
Weiss, A., u. U. Hofmann: Reaktionen im Innern des Schichtgitters von Uranglimmern. Z. Naturforsch. 7 b, 362–363 (1952).
Weiss, A., Reaktionen im Innern von Schichtkristallen. Diss. Darmstadt 1953.
Bodenheimer W., L. Heller, B. Kirson, and Sh. Yariv: Organometallic clay complexes II. Clay Minerals Bull. 5, 145–154 (1962).
Bodenheimer W., B. Kirson u. Sh. Yariv: Metallorganische Tonkomplexe. 1. Mitt. Israel J. Chem. 1, 69–77(1963).
Bodenheimer W., L. Heller, B. Kirson, and Sh. Yariv: Organometallic clay complexes. IV. Nickel and mercury aliphatic polyamines. Israel J. Chem. 1, 391–403 (1963).
Bodenheimer W., L. Heller, B. Kirson, and Sh. Yariv: Organometallic clay complexes. III. Copper-polyamine-clay complexes. Proc. Intern. Clay Conf. Stockholm 2, 351–363 (pub. 1965).
Bodenheimer W., L. Heller, and Sh. Yartv: Organo-metallic clay complexes. VI. Copper-montmorillonite- alkylamines. Proc. Intern. Clay Conf. Jerusalem 1, 251–262 (1966); 2, 171–173 (1967).
Yartv, Sh., W. Bodenheimer, and L. Heller: Organometallic clay complexes. V. Fe(III)-pyrocatechol. Israel J. Chem. 2, 201–208 (1964).
Weiss, A.: Mica-type layer silicates with alkylammonium ions. Clays Clay Minerals 10, 191–224 (1963).
Friedländer, H. Z.: Spontaneous polymerization in and on clays. Am. Chem. Soc. Div. Polymer Chem. Reprints 4, 300–306 (1963).
Suitoj E., M. Arakawa, and S. Kondo: Adsorbed state of organic compounds in organobentonite. Chem. Res., Kyoto Univ. 44, 316–324, 325–334 (1966).
White, D.: The structure of organic montmorillonite and their adsorptive properties in the gas phase. Clays Clay Minerals 12,257–266 (1963).
Pauling, L.: Structures of micas and related minerals. Proc. Natl. Acad. Sci. U.S. 16, 123–129 (1930).
Hofmann, U., K. Endell u. D. Wilm: Struktur und Quellung von Montmorillonit. Z. Krist. Mineral. 86,340–348 (1933).
Hofmann, U., K. Endell u. D. Wilm: Über die Natur der keramischen Tone. Ber. Deut. Keram. Ges. 14, 407–438 (1933).
Hofmann, U., K. Endell u. D. Wilm: Röntgenographische und kolloidchemische Untersuchungen über Ton. Angew. Chem. 47,539–558 (1934).
Hendricks, St. B., and M. E. Jefferson: Crystal structure of vermiculites and mixedm vermiculite-chlorites. Am. Mineralogist 23, 851–862 (1938).
Weiss, A., G. Koch u. U. Hofmann: Zur Kenntnis von Saponit. Ber. Deut. Keram. Ges. 32,12–17(1955).
Weiss, A., Die innerkristalline Quellung als allgemeines Modell für Quellungs Vorgänge. Chem. Ber. 91, 487–502 (1958).
Hoffmann, R. W., and G. W. Brindley: Clay-organic studies. II. Adsorption of nonionic aliphatic molecules from aqueous solution on montmorillonite. Geochim. Cosmochim. Acta 20, 15–29 (1960).
Weiss, A., u. G. Pfirrmann: In G. Pfirrmann, Kolloidchemische und röntgenographische Untersuchungen an Huminsäuren. Diss. Heidelberg 1968.
Foster, W. R., and J. M. Waite: Adsorption of polyoxyethylated phenols on some clay minerals. Am. Chem. Soc., Div. Petro. Chem. Reprints-Symposia, Dallas, Texas 1, 39–44 (1956).
Tettenhorst, R., C. W. Beck, and G. Brunton: Montmorillonite-polyalcohol-complexes. Proc. Natl. Conf. Clays Clay Minerals 9, 500–519 (1962).
Emerson, W. W.: Complex formation between montmorillonites and high polymers. Nature 176, 461 (1955).
Emerson, W. W.: Organo-clay complexes. Nature 180, 48–49 (1957).
Emerson, W. W., and M. Ranchach: The reaction of polyvinylalcohol with montmorillonite. Austral. J. Soil Res. 2, 46–55 (1964).
Greenland, D. J.: The adsorption of sugars by montmorillonite. I. X-ray studies. J. Soil Sci. 7, 319–328 (1956). II. Chemical studies. J. Soil. Sci. 7, 329–334 (1956).
Lynch, D. L., L. M. Wright, and L.J. Cotnoir: The adsorption of carbohydrates and related compounds on clay minerals. Soil Sci. Soc. Am. Proc. 20, 6–9 (1956).
Emerson, W. W.: Complexes of calcium-montmorillonite with polymers. Nature 186, 573–574 (1960).
Schott, H.: Interaction of nonionic detergents and swelling clays. Kolloid-Z. 199, 158–169 (1964).
Greene-Kelly, R.: An unusual montmorillonite complex. Clay Minerals Bull. 2, 226–232 (1955).
Greene-Kelly, R.: Sorption of aromatic organic compounds by montmorillonite. I. Orientation studies. Trans. Faraday Soc. 51, 412–424 (1955). II. Packing studies with pyridine. Trans. Faraday Soc. 425–430 (1955).
Greene-Kelly, R.: Sorption of aromatic organic compounds by montmorillonite. I. Orientation studies. Trans. Faraday Soc. 51, 412–424 (1955). II. Packing studies with pyridine. Trans. Faraday Soc. 425–430 (1955).
Greene-Kelly, R.: Birefringence of Montmorillonite complexes. Nature 184, 181 (1959).
Carthew, A. R.: Use of piperidine saturation in the identification of clay minerals by differential thermal analysis. Soil Sci. 80, 337–347 (1955).
Olphen, H. van, and C. T. Deeds: Stepwise hydration of clay-organic complexes. Nature 194,176–177(1962).
Weiss, A.: Organische Derivate der glimmerartigen Schichtsilicate. Angew. Chem. 75, 113–148 (1963).
Jordan, J. W.: Organophilic bentonites. I. Swelling in organic liquids. J. Phys. Colloid. Chem. 53,294–306(1949).
Jordan, J. W.: Alteration of the properties of bentonites by reaction with amines. Mineral. Mag. 28, 598–605 (1949).
Jordan, J. W., B. J. Hork, and C. M. Finlayson: Organophilic bentonites. II. Organic liquid gels. J. Phys. Chem. 54,1196–1208 (1950).
Weiss, A., A. Mehler u. U. Hofmann: Zur Kenntnis von organophilem Vermiculit. Z. Naturforsch, lib, 431–434 (1956)
Schneider, H., u. H. Ziesmer: Zur Sorption von n-Alkylammoniumionen an Vermiculit. Naturwissenschaften 50, 592–593 (1963).
Ziesmer, H.: Appearance of definite expansion steps of the vermiculite lattice during the sorption of the n-dodecyl ammonium ion. Wiss. Z. Tech. Hochsch. Chem. Leuna- Merseburg 6, 421–426 (1964).
Chaussidou, J., and R. Calvet: Evolution of amine cations adsorbed on montmorillonite with dehydration of the mineral. J. Phys. Chem. 69, 2265–2268 (1965).
Pokhodnya, G. A., and N. V. Vdovenko: Kinetics of sorption of octadecylammonium acetate on minerals. Kolloidn. Zh. 27 (1), 90–94 (1965) [Russ.].
Franzen, P.: X-ray analysis of an adsorption complex of montmorillonite with cetyltrimethyl ammonium bromide (lissolamine). Clay Minerals Bull. 2, 223–225 (1955).
Tahoun, S. A., and M. M. Mortland: Complexes of montmorillonite with primary, secondary and tertiary amides. Soil Sci. 102, 314–321 (1966).
Beck, C. W., and G. Brunton: X-ray and infrared data on hectorite-guanidines and montmorillonite-guanidines. Clays Clay Minerals 8, 22–28 (1960).
Weiss, A., u. I. Kantner: Über eine einfache Möglichkeit zur Abschätzung der Schicht ladung glimmerartiger Schichtsilicate. Z. Naturforsch. 16 b, 804–807 (1960).
Weiss, A., u. G. Lagaly: Ein einfaches Verfahren zur Abschätzung der Schichtladung quellungs-fähiger, glimmerartiger Schichtsilicate. Kolloid-Z. u. Z. Polymere 216/17, 356–361 (1967).
Mehler, A.: Über die Einlagerung von Alkylammoniumionen in Minerale der Montmorillonitgruppe und in Vermikulit. Diss. Darmstadt 1956.
Gupta, P. K. S.: The orientation of aliphatic amine cations on vermiculite. Washington Univ., Univ. Microfilms, Order No 65–6823, 135 pp.
Jones, W. D., and P. K. Sen Gupta: Vermiculite-alkylammonium-complexes. Am. Mineralogist 52, 1706–1724 (1967).
Barrer, R. M., and J. S.S. Reay: Sorption and intercalation by methylammonium bentonites. Trans. Faraday Soc. 53, 1253–1261 (1957).
Barrer, R.M.,and L.W.R. Dicks: Synthetic alkylammonium montmorillonites and hectorites. J. Chem. Soc. 1523–1529 (1967).
Barrer, R. M., and D. M. MacLeod: The activation of montmorillonite by ions exchange and sorption complexes of tetraalkylammonium montmorillonites. Trans. Faraday Soc. 51,1290–1300 (1955).
Garrett, W. G., and G. F. Walker: Swelling of some vermiculite-organic complexes in water. Clays Clay Minerals 9, 557–567 (1962).
Ovcharenko, J. F. D., N. S. Dyachenko, N. V. Vdovenko, A. B. Ostrowskaya, and Yu. J. Tarasevich: Adsorption properties of organosubstituted vermiculite. Ukr. Khim. Zh. 33 (1), 49–56 (1967) [Russ.].
Kinter, E., and S. Diamond: Characterization of Montmorillonite saturated with short-chain amine cations. I. Interpretation of basal spacing measurements. Clays Clay Minerals 10, 163–173 (1963).
Kinter, E., I: I. Interlayer surface coverage by the amine cations. Clays Clay Minerals 10, 174–190 (1963).
Rowland, R. A., and J. E. Weiss: Bentonite-methylamine complexes. Clays Clay Minerals 10, 460–468 (1961) (pub. 1963).
Moll, F.: The orientation of some cyclic amine cations on vermiculite. Univ. Microfilm Order Nr 64–2444,174 pp.
Street, G. B., and D. White: The adsorption of phenol by organoclay derivatives. J. Appl. Chem. 13,203–206(1963).
Weiss A., u. G. Roloff: Über die Einlagerung symmetrischer Triglyceride in quellungs-fähige Schichtsilicate. Proc. Intern. Clay Conf. 1, Jerusalem 1966, 263–275.
Weiss A., u. G. Roloff: In: G. Roloff, Über die Rolle glimmerartiger Schichtsilicate bei der Entstehung von Erdöl und Erdöllagerstätten. Diss. Heidelberg 1965.
Lippmann, F.: Keuper clay from Zaisersweiher. Heidelberger Beitr. Mineral. Petrog. 4, 130–134(1954).
Stephen, I., and D. M. C. MacEwan: Swelling chlorites. Geotechnique (London) 2, 82–83 (1950).
Stephen, I., and D. M. C. MacEwan: Chloritic minerals of unusual type. Clay Minerals Bull. 1, 157–162 (1951).
Weiss, A., W. Thielepape, W. Ritter, H. Schäfer und G. Göring: Zur Kenntnis von Hydrazin-Kaolinit. Z. Anorg. Allgem. Chem. 320, 183–204 (1963).
Weiss, A., W. Thielepape u. H. Orth: Neue Kaolinit-Einlagerungsverbindungen. Proc. Intern. Clay Conf. 1966 Jerusalem, 1,277–293.
Weiss, A., Eine Schichteinschlußverbindung von Kaolinit mit Harnstoff. Angew. Chem. 73, 736(1961).
Weiss, A., W. Thielepape, G. Göring, W. Ritter u. H. Schäfer: Kaolinit-Einlagerungs-Verbin dungen. Intern. Clay Conf. Stockholm, 1963 (1) 287–305 (1963).
Weiss, A., Ein Geheimnis des chinesischen Porzellans. Angew. Chem. 73, 755–762 (1963).
Wada, K.: Lattice expansion of kaolinminerals by treatment with potassium acetate. Am. Mineralogist 46, 78–91 (1961).
Andrew, R. W., M. L. Jackson, and K. Wada: Intercalation as a technique for differentiation of kaolinite from chlorite minerals by x-ray diffraction. Soil Sci. Soc. Am. Proc. 24,422–424(1960).
Weiss, A., u. W. Thielepape: In: W. Thielepape, Kaolinit-Einlagerungsverbindungen. Diss. Heidelberg 1966.
Range, K. J., A. Range u. A. Weiss: Zur Existenz von Kaolinit-Hydraten. Z. Naturforsch. 23 b, 1144–1147 (1968).
Weiss, A., K.J. Range u. H. Lechner: Klassifizierung von Halloysiten und Kaoliniten mit unterschiedlicher Fehlordnung durch ihr Reaktionsvermögen und Verhalten bei sehr hohen Drucken. Proc. Intern. Clay Conf. 1966, Jerusalem 2, 8 (1967).
Weiss A., u. K. Hartl: Über organophile Uranglimmer. Z. Naturforsch. 12 b, 351–355 (1957).
Weiss, A., u. K. Hartl u. U. Hofmann: Zur Kenntnis von Monohydrogen-uranylphosphat HUO2PO4 4H2O und Monohydrogenuranylarsenat HUO2AsO4 4H2O. Z. Naturforsch. 12b, 669–671 (1957).
Weiss, A., F. Taborszky, K. Hartl u. E. Tröger: Zur Kenntnis des Uranminerals Trögerit. Z. Naturforsch. 12 b, 356–358 (1957).
Hartl, K.: Zur Chemie der Uranglimmer. Diss. Darmstadt 1958.
Kranz, R. D.: Die geochmische Bedeutung organischer Verbindungen in den Einschlüssen uranhaltiger Mineralien. Naturwissenschaften 54, 469 (1967).
Weiss, A., u. K.J. Hilke: Uvanit, ein Uranylvanadat mit Schichtstruktur und innerkristallinem Quellungsvermögen. Angew. Chem. 77, 347 (1965).
Weiss, A., u. K.J. Hilke:In: K. J. Hilke, Innerkristallin quellungsfähige Vanadate, Wolframate und Phosphate. Diss. Heidelberg 1966.
Weiss, A., K. Hartl u. E. Michel: Zur Konstitution der Vanadinminerale Hewettit und Meta-Hewettit. Z. Naturforsch. 166, 842–843 (1961).
Weiss, Al., E. Michel u. A. Weiss: Kationenaustausch und eindimensionales innerkristallines Quellungsvermögen von Polyvanadaten mit Schichtstruktur. Angew. Chem. 73,707 (1961).
Weiss, A., u. T. Fodnes: Kationenaustausch und innerkristallines Quellungsvermögen vonkettenförmigen Polyvanadaten [Me+(VO3)”],. Naturwissenschaften 49, 11–12 (1962).
McBain, J. W.: Main principles in colloid chemistry. Kolloid-Z. 40, 4 (1926).
Barrer, R. M.: Inorganic inclusion complexes. In: L. Mandelorn, Non-stoichiometric compounds, p. 310–437. New York: Academic Press 1964.
Szigeti, P.: Über sogenannte negative Adsorption und Dampfdruckisothermen an Permutiten und Tonen. Kolloid-Beih. 38, 99–176 (1933).
Ensminger, L. E., and J. E. Gieseking: The adsorption of proteins by montmorillonitic clays. Soil Sci. 48,467–473 (1939).
Ensminger, L. E., and J. E. Gieseking:The adsorption of proteins by montmorillonitic clays and its effect on base-exchange capacity. Soil Sci. 51,125–132 (1941).
Ensminger, L. E., and J. E. Gieseking: Resistance of clay-adsorbed proteins to proteolytic hydrolysis. Soil Sci. 53, 205–209 (1942).
Talibudeen, O.: Interlamellar adsorption of protein monolayers on pure montmorillonoid clays. Nature 166,236 (1950).
Talibudeen, O.: The technique of differential thermal analysis. I. The quantitative aspect. J. Soil Sci. 3, 251–256 (1952). II. Organic complexes of clays. J. Soil Sci. 3, 256–260 (1952).
Talibudeen, O.: Complex formation between montmorillonoid clays and amino-acids and proteins. Trans. Faraday Soc. 51,582–590 (1955).
Weiss, A., u. G. Koch: In: G. Koch, Diss. Darmstadt 1960.
Pinch, L. A., and F.E. Allison: Resistance of a protein-montmorillonite complex to decomposition by soil microorganisms. Science 114, 130–131 (1951).
Walker, G. F., and W. G. Garrett: Complexes of vermiculite with amino acids. Nature 191,1389 (1961).
Fripiat, J. J., P. Cloos, B. Calicisj and K. Makay: Adsorption of amino acids and peptides by montmorillonite. II. Identification of adsorbed species and decay products by infrared spectroscopy. Proc. Intern. Clay Conf. Jerusalem 1, 233–246 (1966).
Sieskind, O.: Adsorption complexes formed by montmorillonite and certain aminoacids. Adsorption isotherms at pH 2 and 20°. Compt. Rend. 250, 2228–2230 (1960).
Sieskind, O.: The adsorption complexes formed in acid media between montmorillonite-H and certain amino acids. Compt. Rend. 250, 2392–2393 (1960).
Sieskind, O., and R. Wey: Adsorption of amino acids by montmorillonite-H. Effect of relative positions of the two functional groups -NH2 and -COOH. Compt. Rend. 248,1652–1655 (1959).
Haxaire, A.: Diss. Univ. Nancy 1956.
Cloosj P., B. Calicis, J. J. Pripiat, and K. Makay: Adsorption of aminoacids and peptides by montmorillonite. I. Chemical and X-ray diffraction studies. Proc. Intern. Clay Conf. Jerusalem 1,223–232 (1966).
Greenland, D. J., R. H. Laby, and J. P. Quirk: Adsorption of glycine and its di-, tri-, and tetrapeptides by montmorillonite. Trans. Faraday Soc. 58, 829–841 (1962).
Lailach, G. E., T. D. Thompson, and G. W. Brindley: Absorption of pyrimidines, purines and nucleosides by Li-, Na-, Mg- and Ca-montmorillonites (to be published).
Lailach, G. E., T. D. Thompson, and G. W. Brindley: Absorption of pyrimidines, purines and nucleosides by Co-, Ni-, Cu-and Fe(III)- montmorillonites (to be published).
Dosch, W., and H. zur Strassen: Investigation of tetracalcium aluminate hydrates. I. The various hydrate stages and the effect of carbonic acid. Zement-Kalk-Gips 18, 233–237 (1965).
Olphen, H. van: Clay organic complexes and the retention of hydrocarbons by source rocks. Am. Chem. Soc., Div. Petrol. Chem. Reprints 8, A 41–49 (1963).
Chaussidou, J.: Diskussion, Intern. Clay Conf. Stockholm 1963, 2, 338 (publ. 1964).
Friedrich, H., u. U. Hofmann: Die Tonminerale in Oelschiefer und in dem Trinidad-Asphalt. Z. Naturforsch. 21b, 912–920 (1966).
Weiss, A., u. G. Roloff: Hämin-Montmorillonit und seine Bedeutung für die Festlegung der oberen Temperaturgrenze bei der Bildung des Erdöls. Z. Naturforsch. 19 b, 533–534 (1964).
Hauser, E. A., and M.B. Leggett: Color reactions between clays and amines. J. Am. Chem. Soc. 62,1811–1814 (1940).
Endell, J., R. Zorn u. U. Hofmann: Über die Prüfung auf Montmorillonit mit Benzidin. Angew. Chem. 54, 376–377 (1941).
Krüger, D., u. F. Oberlies: Struktur und Farbreaktionen von Montmorillonit. Naturwissenschaften 31,92 (1943).
Mielenz, R. C., and M. E. King: Identification of clay minerals by staining tests. Proc. Am. Soc. Test. Mater. 51,1213–1233 (1951).
Hambleton, W. W., and C. G. Dodd: A qualitative color test for the rapid identification of the clay mineral groups. Econ. Geol. 48,139–146 (1953).
Doddj G.: Dye adsorption as a method of identifying clay. Proc. 1 st Natl. Conf. on Clays and Clay Minerals 1952, Calif. Dept. Nat. Resources, Div. Mines Bull. 169, 105–111 (1955).
Ramachandran, V. S., and K.P. Kacher: Thermal decomposition of dye clay mineral components. J. Appl. Chem. 14, 455–460 (1964).
Weicker, H., and R. Brommer: Ammination of sugars during chromatography on Kieselgel-H (silica-gel) by use of ammonia-containing solvent media. Klin. Wschr. 39, 1265–1266(1961).
Weicker, H., and J. Grasslin: Galactosamine synthesis from tagalose on Kieselgel-H in aqueous ammoniacal medium. Hoppe-Seylers Z. physiol. Chem. 337, 133–136 (1964).
Weiss, A., u. G. Lagaly: In: G. Lagaly, Untersuchungen von Quellungsvorgängen in n-Alkylammonium-Schichtsilicaten. Diss. Heidelberg 1966.
McLaren, A. D.: The adsorption and reactions of enzymes and proteins on kaolinite I. J. Phys. Chem. 58, 129–137 (1954).
McLaren, A.D.,and G.H. Petersen: Montmorillonite as a caliper for the size of protein molecules. Nature 192,960–961 (1961).
Lagaly, J., and A. Weiss: Determination of the layer charge in mica-type layer silicates. Proc. Intern. Clay Conf. 1969, Tokio, p. 61. Israel Progr. Scient. Transl. Ltd., Jerusalem (1969).
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Weiss, A. (1969). Organic Derivatives of Clay Minerals, Zeolites, and Related Minerals. In: Eglinton, G., Murphy, M.T.J. (eds) Organic Geochemistry. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-87734-6_38
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