Abstract
The structural phase transitions between the intercalated and the non-intercalated phases of the layer structure compound n-decylammoniumchloride and n-hexylammoniumchloride have been studied via proton-14N and proton-35Cl nuclear quadrupole double resonance. The results have been related to an order-disorder model of the alkylammonium chains. The temperature dependence of the order parameters of the −NH3 head groups has been determined.
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Kind, R., Blinc, R., Arend, H., Muralt, P., Slak, J., Chapuis, G., Schenk, K.J., Žekš, B.: Phys. Rev.A26, 1816 (1982)
Chapuis, G., Schenk, K.J.: Structural studies of the phase transitions inN-hexylammoniumchloride andN-octylammonium chloride: to be published, see also Schenk, K.J.: Ph.D. Thesis, ETH Laussane
Seliger, J., Blinc, R., Arend, H., Kind, R.: Z. Phys. B-Condensed Matter and Quanta25, 189 (1976)
Seliger, J., Blinc, R., Mali, M., Osredkar, R., Prelesnik, A.: Phys. Rev.B11, 27 (1975)
Seliger, J., Žagar, V., Blinc, R., Kind, R., Arend, H., Milia, F.: Z. Phys. B-Condensed Matter67, 363 (1987)
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Seliger, J., Žagar, V., Blinc, R. et al. 14N and35Cl nuclear quadrupole double resonance study of the phase transitions in n-decylammoniumchloride and n-hexylammoniumchloride. Z. Physik B - Condensed Matter 69, 379–384 (1987). https://doi.org/10.1007/BF01307295
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DOI: https://doi.org/10.1007/BF01307295