Publication date: 5 October 2018
Source:Materials & Design, Volume 155
Author(s): Akansha Mehta, Amit Mishra, Shagun Kainth, Soumen Basu
The exposure of even low amount of heavy metals and industrial dyes in wastewater leads to cardiovascular, neurological and developmental disorders. Consequently, millions of inorganic and organic pollutants containing toxic heavy metals have been accounted as water contaminants. In this report, a novel approach has been designed based on the methodology to "kill waste by waste". Firstly the toxic metals like lead (Pb) ions were detected using fluorescence carbon quantum dots (CQDs) and after impregnation of TiO2 into the same Pb-CQDs composite, it was further used for photodegradation of harmful industrial dyes. The CQDs have been designed as a nanosensor for Pb ion detection and its fluorescence is effectively quenched with good sensitivity (0.070 μM) and selectivity. This Pb-CQDs solution was further immersed in TiO2 by wet impregnation method to fabricate Pb-CQDs-TiO2 (PCT) nanocomposite with a change in the energy gap (3.2 to 2.8 eV) making the composite active in visible light irradiation. The degradation efficiency achieved ~100% mark for RBX dye and 1.8 μmols of CO2 evolution was observed in 60 min. The plausible mechanism is proposed based on GCMS studies suggesting the formation of intermediates like triazine and aryl sodium sulphonates before complete decomposing into CO2 and water.
Graphical abstract
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