Mesoporous nanosensors for sensitive monitoring and removal of copper ions in wastewater samples
M. El-Sewify, Islam; Khalil, Mostafa M.H.;
Abstract
In this report, we employ a simple, fast andin situassessment method for the sensing and uptake of copper in wastewater. The monitoring and uptake of copper ion concentration with a highly selective, sensitive, accurate, rapid and simple protocol in wastewater were successfully investigated. Ball like structures of uniform mesoporous silica nanospheres (MSN) with multi-diffused spaces were utilized as a platform in the fabrication of optical chemosensors in the determination of the Cu2+ions in wastewater samples. The nanosphere carriers are fabricatedviaammonia catalytic hydrolysis in the presence of a templating agent in a mixed solvent at ambient temperature. The high surface area of the sphere like structure allows for the loading of the Cu2+ion chromophore in fluorescein hydrazine salicylaldehyde (FHS). The fabricated chemosensors are prepared in a simple processviadirect immobilization without any agent. The fluorescein hydrazine derivative immobilized onto the mesoporous silica nanosphere that carries FHNS allows for the monitoring of Cu2+ions and the colour changes from yellow to brown in a few seconds. The engineering of FHNS optical chemosensors shows a high sensitivity and lower limit of detection than the permissible limits in wastewater (2.7 × 10−10mol L−1). The removal features of the fabricated FHNS were analysed and the adsorption capacity was calculated (581.4 mg g−1) for capturing Cu2+ions. Our findings show strong evidence that the optical chemosensors will be utilized as a promising industrial means for the sensing and adsorption of copper ions.
Other data
Title | Mesoporous nanosensors for sensitive monitoring and removal of copper ions in wastewater samples | Authors | M. El-Sewify, Islam ; Khalil, Mostafa M.H. | Issue Date | 7-Feb-2021 | Publisher | ROYAL SOC CHEMISTRY | Journal | new journal of chemistry | Volume | 5 | Issue | 45 | Start page | 2573 | End page | 2581 | ISSN | 11440546 | DOI | 10.1039/d0nj05338d | Scopus ID | 2-s2.0-85100729975 | Web of science ID | WOS:000616688400025 |
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