Eur. Phys. J. E (2015) 38: 84
https://doi.org/10.1140/epje/i2015-15084-5

Regular Article

Crystalline fibrillar gel formation in aqueous surfactant-antioxidant system

¹ Soft Materials Research Laboratory, Department of Chemistry, National Institute of Technology, Calicut, India
² Condensed Matter Physics Division, Indira Gandhi Centre for Atomic Research, Kalpakkam, Tamilnadu, India

^* e-mail: lisa@nitc.ac.in

Received: 13 December 2014
Revised: 14 April 2015
Accepted: 3 June 2015
Published online: 10 August 2015

Abstract

Cetyltrimethylammonium bromide (CTAB) is a well-known cationic surfactant capable to micellize into diverse morphologies in aqueous medium. We observed the formation of an opaque gel state from aqueous CTAB solution in the presence of the aromatic additive, para-coumaric acid (PCA). Optical microscopic images revealed the presence of large fibrils in the system at room temperature. Gel nature of the fibrils was confirmed by rheological measurements. Presence of interstitial water in the fibrils was recognized with Raman spectroscopy. On heating the sample above 30 ^° C, the fibrillar gel state changes to a transparent liquid state with Newtonian flow properties. Dynamic light scattering study hinted the presence of small micelles in the solution above 30 ^° C. Thus the system showed a temperature-dependent structural transition from opaque water-swollen gel to transparent micellar liquid. The formation of water-swollen fibrillar network is attributed to surfactant-additive intermolecular interactions in aqueous medium. Transition to micelle phase above 30 ^° C is related to Kraft transition which is observed at significantly lower temperature for CTAB in the absence of PCA. The structural features of PCA play a key role in promoting fibrillar network formation and elevating the Kraft transition in aqueous solution of CTAB.