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Studies on the mechanism of coagulation

Part I. The stability of positive silver iodide sols in the presence of anionic surface active agents

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Summary

The rate of coagulation of positive silver iodide sols (mean particle radius 100 Å) by anionic surface active agents has been measured spectrophotometrically at pAg 3. The surface active agents used were, sodium decyl-, sodium dodecyl-, and sodium tetradecyl sulphates, sodium dodecyl- and sodium dodecylbenzene sulphonates, Manoxol OT, and dodecyldihydrogen phosphate. From the experimental data the stability ratio's (W) were calculated giving curves of logW against log concentration of surface active agent.

The stability of the sols decreased with increasing concentration of surface active agent, coagulation occurring at concentrations of 10−5 to 10−3 M according to the nature of the agent; beyond this region the stability of the sol increased again and appeared to reach a limiting value. The curves were compared with those calculated from theoretical considerations of the decrease in energy of interaction of the particles caused by the adsorption of surface active agent. In general, good agreement was found between the shape of the experimental curves and those calculated theoretically.

Zusammenfassung

Die Koagulationsgeschwindigkeit positiv geladener Silberjodidsole (mittlerer Teilchenradius 100 Å) durch anionische oberflächenaktive Agenzien wurde spektroskopisch beip Ag 3 gemessen. Als oberflächenaktive Substanzen wurden angewendet: Natriumdecyl- und Natriumdodecyl- und Natriumtetradecylsulfat, Natriumdodecyl- und Natriumdodecylbenzylsulfonat, Manoxol OT und Dodecyldihydrogen-Phosphat. Aus den experimentellen Werten wurde das Stabilitätsverhältnis (W) berechnet, das Zusammenhänge zwischen logW und log (Konzentration der oberflächenaktiven Substanz) ergibt.

Die Stabilität der Sole nimmt mit steigender Konzentration an oberflächenaktiver Substanz ab, wobei für Konzentrationen zwischen 10−5 bis 10−3 M, entsprechend der Natur des Agens, Koagulation eintritt. Oberhalb dieses Bereiches steigt die Stabilität des Soles wieder an und scheint einem Grenzwert zuzustreben. Die Kurven wurden mit denen verglichen, die aus theoretischen Betrachtungen über die Abnahme der Wechselwirkungsenergie zwischen den Teilchen durch Absorption der oberflächenaktiven Substanz errechnet werden. Im allgemeinen ließ sich gute Übereinstimmung von experimentellen und theoretischen Kurven hinsichtlich des Verlaufs feststellen.

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Author notes

  1. A. Watanabe

    Present address: Institute for Chemical Research, Kyoto University, Kyoto, Japan

Authors and Affiliations

  1. Department of Colloid Science, University of Cambridge, Cambridge, England

    R. H. Ottewill & A. Watanabe

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  1. R. H. Ottewill
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  2. A. Watanabe
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Ottewill, R.H., Watanabe, A. Studies on the mechanism of coagulation. Kolloid-Zeitschrift 170, 38–48 (1960). https://doi.org/10.1007/BF01520071

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