Journal
INORGANIC CHEMISTRY COMMUNICATIONS
Volume 141, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.inoche.2022.109510
Keywords
Optical sensor; Preconcentration; Hg(II) ions; Mesoporous TiO2
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Mesoporous TiO2 nanoparticles-based optical sensor allows for the facile and cost-effective preconcentration, removal, and detection of ultra-trace levels of Hg(II) ions from aqueous solutions. The sensor exhibits remarkable selectivity, sensitivity, recyclability, and fast kinetic quantification and detection of diverse detrimental toxic metal ions.
A Facile and cost-effective chemical, optical sensor based mesoporous TiO2 nanoparticles (NPs) have been evaluated for the preconcentration, removal and detection of Hg(II) ions at ultra-trace levels from an aqueous solution for the first time within 30 sec. The formation Hg(II)-Dithazone (DZ) complex in the solution was successfully anchored onto the surface of mesoporous TiO2 NPs with optical colour signal changing from beige to reddish-brown, and the intensity of the colour was found to be directly corresponding to the Hg(II) ions concentration. A good linearity is obtained between DZ and Hg(II) concentration, exhibiting a limit of detection as low as 2.3 x 10(-9 )molL(-1). The effect of foreign ions revealed that Hg(II) ions could be detected distinctly with high selectivity regarding the Hg(II) ions. The regeneration of mesoporous TiO2 NPs is considered advantageous by UV illumination for self-cleaning TiO2, with an insignificant reduction in its efficiency even after five times. The adsorption efficiency of Hg(II) ions well matched the model of Langmuir isotherm with maximum adsorption capacity ~0.00103 mmol/g within 30 sec over mesoporous TiO2 NPs. Moreover, the key parameters for visualized detection selective and fast adsorption of Hg(II) ions were optimized and evaluated. Interestingly, the mesoporous TiO2 NPs based optical sensor indicated remarkable selectivity, sensitivity, recyclability, and fast kinetic quantification and detection of diverse detrimental toxic metal ions in our circumference.
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