Amplitude-modulated atomic force microscopy reveals the near surface nanostructure of surfactant sponge (L(3)) and lamellar (L(a)) phases.

Wydro, Marc J.; Warr, Gregory G.; Atkin, Rob

Title: Amplitude-modulated atomic force microscopy reveals the near surface nanostructure of surfactant sponge (L(3)) and lamellar (L(a)) phases.
Creator: Wydro, Marc J.; Warr, Gregory G.; Atkin, Rob
Relation: Langmuir Vol. 31, Issue 19, p. 5513-5520
Publisher Link: http://dx.doi.org/10.1021/acs.langmuir.5b01008
Publisher: American Chemical Society (ACS)
Resource Type: journal article
Date: 2015
Description: Amplitude-modulated atomic force microscopy (AM-AFM) has been used to study the nanostructure of cetylpyridinium chloride (CPCl)-hexanol-0.2 M NaCl sponge (L3) and lamellar (La) phases near a mica surface. For both phases, membrane volume fractions of 22, 27, and 32 vol % were investigated, with the L3 or La phase selected by adjusting the co-surfactant/surfactant ratio (hexanol/CPCl). For the L3 phase, the presence of the surface flattens the three-dimensional bulk structure. AM-AFM clearly resolves the membrane and solvent passages in the near surface layer. Increasing the membrane volume fraction decreases the size of the image features because of the lower solvent content. Within error, the average passage sizes in the near surface layer are the same as those in the bulk at the same concentration. Images of the La phase reveal undulating near surface sheets. At the highest membrane concentration, the image is very smooth, because the lamellar sheet is confined between the surface and the next near surface layer, which is in close proximity as a result of the low solvent content. As the membrane concentration is reduced, the space between layers is increased and undulations appear in the near surface lamellar structure. Undulations are more pronounced at the lowest membrane volume fraction.
Subject: atomic force microscopy; nanostructure; Amplitude-modulated atomic force microscopy; membrane volume
Identifier: http://hdl.handle.net/1959.13/1301598
Identifier: uon:20326
Identifier: ISSN:1520-5827
Language: eng
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