Issue 1, 2022

Cationic surfactant-directed structural control of NaCl crystals from evaporating sessile droplets

Abstract

We report morphological regulation of NaCl (sodium chloride) crystals through the evaporative crystallisation process of microdroplets containing a cationic surfactant CTAB (cetyltrimethylammonium bromide). Various fascinating evaporative salt morphologies are observed using different combinations of salt (CNaCl) and surfactant (CCTAB) concentrations. Each observed morphology is carefully explained by the interplaying physical phenomena, such as crystallisation, micellisation, evaporative dewetting, and surface adsorption of anionic couneterions. Salt morphologies are investigated for low (CNaCl = 0.1 (M)), intermediate (CNaCl = 0.5 (M)) and high (CNaCl = 2 (M)) concentrations, whereas surfactant concentrations are varied four orders of magnitudes (from 0.0001 (M) to 0.1 (M)). Interestingly, we observe a threshold in CCTAB at 0.001 (M), beyond which the peripheral rings of dried deposits are found to be composed of CTAB for CNaCl = 0.1 (M), while the same is seen to be made up of NaCl for CNaCl = 2 (M). We have explained the morphological evolution by the process of competitive surface adsorption phenomenon between Cl and Br counter ions. Such a detailed study of saline droplet crystallisation in the presence of a cationic surfactant underpins the fundamental understanding of the crystallisation process. In addition, it may further impact application sectors where crystallisation of saline solution plays an important role, especially in the presence of additives.

Graphical abstract: Cationic surfactant-directed structural control of NaCl crystals from evaporating sessile droplets

Supplementary files

Article information

Article type
Paper
Submitted
18 Sep 2021
Accepted
22 Nov 2021
First published
23 Nov 2021

Soft Matter, 2022,18, 62-79

Cationic surfactant-directed structural control of NaCl crystals from evaporating sessile droplets

J. K. Dewangan, N. Basu and M. Chowdhury, Soft Matter, 2022, 18, 62 DOI: 10.1039/D1SM01357B

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