Functionalized-AgNPs for Long-Term Stability and Its Applicability in the Detection of Manganese Ions

Functionalized-AgNPs for Long-Term Stability and Its Applicability in the Detection of Manganese Ions

In this study, silver nanoparticles (AgNPs) were functionalized by various molecules, including sodium borohydride (NaBH4), polyhexamethylene biguanide hydrochloride (PHMB), and Tween 80 to investigate the long-term stabilization of AgNPs in an aqueous dispersion. PHMB-functionalized silver nanopart...

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Bibliographic Details
Published in:Advances in polymer technology Vol. 2020; no. 2020; pp. 1 - 9
Main Authors: Tran, Vinh-Hoang, Xuan Dinh, Ngo, Quang Huy, Tran, Dinh Tam, Phuong, Tien Khi, Nguyen, Vu, Ngoc Phan, Thi Tam, Le, Mai, Mai, Hoang, Van-Tuan, Le, Anh-Tuan
Format: Journal Article
Language:English
Published: Cairo, Egypt Hindawi Publishing Corporation 2020
Hindawi
John Wiley & Sons, Inc
Hindawi Limited
Hindawi-Wiley
Subjects:
Ambient temperature
Chelation
Chemical bonds
Chemical tests and reagents
Colorimetry
Correlation coefficients
Fourier transforms
Manganese ions
Nanoparticles
Nitrates
Nitrogen
Particle size
Potential probes
Silver
Stability
Stabilization
Surface active agents
Textiles
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Summary:In this study, silver nanoparticles (AgNPs) were functionalized by various molecules, including sodium borohydride (NaBH4), polyhexamethylene biguanide hydrochloride (PHMB), and Tween 80 to investigate the long-term stabilization of AgNPs in an aqueous dispersion. PHMB-functionalized silver nanoparticles (AgNPs/PHMB) exhibited better stability than others and could be stored at ambient temperature for at least 180 days. In addition to creating stabilization based on the electrostatic repulsion, the use of PHMB helped to increase the degree of stability of the colloidal AgNPs for a long time owing to strong interactions between Ag atoms on AgNPs with nitrogen (N) positions in PHMB molecules. The formed bond led to improving maintenance ability of the electrostatic repulsion layer among independent nanoparticles. The applicability of the as-prepared AgNPs/PHMB was also examined for Mn2+ detection via a colorimetric approach. The calibration curve was found to be linear over the range of 0–100 mM with a correlation coefficient of 0.97. The amine groups of PHMB brought out a cooperative effect to form of ion-templated chelation with Mn2+, which caused the aggregation of AgNPs/PHMB. This suggested that the AgNPs/PHMB could be used as a potential probe in the detection of Mn2+ ions. More importantly, the long-term stability of AgNPs/PHMB paved a great promising path to provide many further solutions for the producer in practical applications.
ISSN:0730-6679
1098-2329
DOI:10.1155/2020/9437108