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Tarek, M., Mahmoud, W., Elmosallamy, M., El-Sherif, A. (2024). Cadmium detection with nickel complex nanoparticles sensor using QCM technique Mohamed T. Radwan 1 , Walaa H. Mahmoud 1 , Mohamed A.F. ElMosallamy 2 and Ahmed A. El-Sherif 1. Bulletin of Faculty of Science, Zagazig University, 2024(1), 132-142. doi: 10.21608/bfszu.2023.233505.1303
Mohamed ahmed Tarek; Walaa Mahmoud; Mohamed Alaa eldeen Elmosallamy; ahmed Abdou El-Sherif. "Cadmium detection with nickel complex nanoparticles sensor using QCM technique Mohamed T. Radwan 1 , Walaa H. Mahmoud 1 , Mohamed A.F. ElMosallamy 2 and Ahmed A. El-Sherif 1". Bulletin of Faculty of Science, Zagazig University, 2024, 1, 2024, 132-142. doi: 10.21608/bfszu.2023.233505.1303
Tarek, M., Mahmoud, W., Elmosallamy, M., El-Sherif, A. (2024). 'Cadmium detection with nickel complex nanoparticles sensor using QCM technique Mohamed T. Radwan 1 , Walaa H. Mahmoud 1 , Mohamed A.F. ElMosallamy 2 and Ahmed A. El-Sherif 1', Bulletin of Faculty of Science, Zagazig University, 2024(1), pp. 132-142. doi: 10.21608/bfszu.2023.233505.1303
Tarek, M., Mahmoud, W., Elmosallamy, M., El-Sherif, A. Cadmium detection with nickel complex nanoparticles sensor using QCM technique Mohamed T. Radwan 1 , Walaa H. Mahmoud 1 , Mohamed A.F. ElMosallamy 2 and Ahmed A. El-Sherif 1. Bulletin of Faculty of Science, Zagazig University, 2024; 2024(1): 132-142. doi: 10.21608/bfszu.2023.233505.1303

Cadmium detection with nickel complex nanoparticles sensor using QCM technique Mohamed T. Radwan 1 , Walaa H. Mahmoud 1 , Mohamed A.F. ElMosallamy 2 and Ahmed A. El-Sherif 1

Article 14, Volume 2024, Issue 1, April 2024, Page 132-142  XML PDF (1.04 MB)
Document Type: Original Article
DOI: 10.21608/bfszu.2023.233505.1303
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Authors
Mohamed ahmed Tarek1; Walaa Mahmoud2; Mohamed Alaa eldeen Elmosallamy3; ahmed Abdou El-Sherif email 2
1chemistry, faculty of science, Zagazig university
2chemistry, faculty of science, Cairo university
3Faculty of Science Zagazig University
Abstract
Cadmium (Cd) contamination in both water and soil constitutes a significant environmental concern, acknowledged as a pollutant. The uptake and accumulation of bioavailable Cd by food crops further accentuate its threat. The imperative for consistent monitoring of Cd levels in the environment stems from the aim of mitigating potential harm and exposure to humans. In this context, the synthesis of nickel complex nanoparticles emerges as an eco-friendly and dependable process, holding relevance across diverse domains. This process has led to the development of an innovative nano nickel sensor for the purpose of detecting cadmium.
The comprehensive characterization of the nano nickel complex was accomplished through a different analytical tools, encompassing DLS, Zeta potential, TEM, AFM, FT-IR spectroscopy, contact angle measurements, BET surface area determination, and pore size analysis. Moreover, the application of the nano nickel complex as a simple, cost-effective, and highly sensitive QCM sensor was explored, primarily targeting the rapid detection of cadmium. Through the utilization of the nano nickel complex sensor as a discerning and responsive QCM sensor, cadmium detection can be achieved at concentrations as low as 1 ppm.
The cytotoxicity of the cadmium complex nanoparticles was screened. Notably, this methodology exhibits successful applicability for the determination of Cd[II] ions in groundwater and industrial effluent wastewater samples, providing a valuable tool for environmental monitoring and protection.
Keywords
Nano sensor; cadmium; QCM; TEM; BET
Main Subjects
Basic and applied research of Chemistry,
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