Advanced QCM-Based Nanosensor: Utilizing Cobalt Schiff Base Complexes for Efficient Methylene Blue Monitoring in Aqueous Environments

Shaimaa M Elgazar, Walaa H Mahmoud, Abeer T Abdelkarim, Ahmed Abdo El-Sherif

Abstract

The advancement of sensor technology has emerged as a critical imperative, driven by the need to address pressing environmental challenges. In the textile industry, the discharge of dye-containing wastewater poses significant ecological concerns, underscoring the importance of developing versatile nanosensors capable of detecting azo-toxic dyes with high precision. This study focuses on the develo...

Keywords

Quartz crystal microbalance

Cobalt

Schiff base

Nanosensor

Materials science

Nanomaterials

Nanotechnology

Chemistry

Chemical engineering

Analytical Chemistry (journal)

Inorganic chemistry

Organic chemistry

Polymer chemistry

Adsorption

Engineering

2024

Article

Institution

Faculty of science, Cairo university

2-Y Citation Average

0.712

DOI

https://doi.org/10.21608/ejchem.2024.290034.9717

Language

en

Country

Egypt

Advanced QCM-Based Nanosensor: Utilizing Cobalt Schiff Base Complexes for Efficient Methylene Blue Monitoring in Aqueous Environments

Egyptian Journal of Chemistry

Shaimaa M Elgazar, Walaa H Mahmoud, Abeer T Abdelkarim, Ahmed Abdo El-Sherif

Abstract

The advancement of sensor technology has emerged as a critical imperative, driven by the need to address pressing environmental challenges. In the textile industry, the discharge of dye-containing wastewater poses significant ecological concerns, underscoring the importance of developing versatile nanosensors capable of detecting azo-toxic dyes with high precision. This study focuses on the develo...