posted on 2023-02-23, 21:30authored byRoberto J. Aguado, André Mazega, Núria Fiol, Quim Tarrés, Pere Mutjé, Marc Delgado-Aguilar
The use of dithizone
(DTZ) for colorimetric heavy-metal
detection
is approximately one century old. However, its pending stability issues
and the need for simple indicators justify further research. Using
cellulose nanofibers, we attained DTZ-containing emulsions with high
stability. These emulsions had water (at least 95 wt %) and acetic
acid (1–8 mL/L) conforming the continuous phase, while dispersed
droplets of diameter <1 μm contained chloroform-solvated
DTZ (3 wt %). The solvation cluster was computed by molecular dynamics
simulations, suggesting that chloroform slightly reduces the dihedral
angle between the two sides of the thiocarbazone chain. Nanocellulose
concentrations over 0.2 wt % sufficed to obtain macroscopically homogeneous
mixtures with no phase separation. Furthermore, the rate of degradation
of DTZ in the nanocellulose-stabilized emulsion did not differ significantly
from a DTZ/chloroform solution, outperforming DTZ/toluene and DTZ/acetonitrile.
Not only is the emulsion readily and immediately responsive to mercury(II),
but it also decreases interferences from other ions and from natural
samples. Unexpectedly, neither lead(II) nor cadmium(II) triggered
a visual response at trace concentrations. The limit of detection
of these emulsions is 15 μM or 3 mg/L, exceeding WHO limits
for mercury(II) in drinking water, but they could be effective at
raising alarms.