Abstract
ABSTRACTNanoparticles of CdS and PbS were prepared by a novel method in which a sparingly soluble salt of the metal is brought into contact with the preparation solution mixture, without mixing, to introduce Cd2+ or Pb2+ ion into the medium at infinitesimal doses. The aqueous solution mixture contained n-heptane; thioacetamide, as sulphide ion precursor; cetyltrimethylammonium bromide (CTAB), as capping agent; and n-butanol, as co-surfactant. At the solid/solution interface CTAB-capped nanometal sulphide is formed through a metathesis reaction in extreme dilute medium. UV-visible, FTIR, and X-ray diffraction spectroscopy, as well as transmission electron microscopy were used to characterise the nanoparticles. The results showed that in solution, the diameters of the prepared CdS and PbS are 2.67 and 1.87 nm, respectively. In crystalline form, the corresponding diameters are 3.8–6.6 nm, and 6.88–13.9 nm, respectively. The crystalline structure of CdS is cubic or hexagonal, while that of PbS is face-centred cubic. The FTIR studies proved that CTAB acted as a capping agent of the investigated nanoparticles.
Highlights
In recent decades, the synthesis of nanoparticles of cadmium and lead sulfides has gained great interest due to their increasing scientific and technological applications [1,2,3,4,5,6]
At the solid/ solution interface cetyltrimethylammonium bromide (CTAB)-capped nanometal sulphide is formed through a metathesis reaction in extreme dilute medium
1.5 g of thioacetamide and 5.0 g of CTAB have been dissolved in 50 mL of bi-distilled water
Summary
The synthesis of nanoparticles of cadmium and lead sulfides has gained great interest due to their increasing scientific and technological applications [1,2,3,4,5,6]. To obtain nanoparticles by metathesis precipitation reaction, almost all the previously reported methods required the use of water soluble toxic salts of Cd(II) and Pb(II) in the presence of a capping, blocker, or dispersing agent to suppress the growth process [7,8,9,10,11,12]. This contributes to the pollution of the environment, and increases the probability of metal ions co-precipitation over the large surface of the nanoparticles. The metal precursors are commercially available and easy to obtain in pure state
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