Issue 36, 2018

Assembled growth of 3D Fe3O4@Au nanoparticles for efficient photothermal ablation and SERS detection of microorganisms

Abstract

The development of a single agent with multifunctionality for the rapid detection and inhibition of the spread of pathogenic microorganisms is of great importance for environmental hygiene as well as water and food safety. For this purpose, we integrate plasmonic nano-Au, near-infrared (NIR)-activated Fe3O4 nanoclusters, and NIR-absorbing polydopamine to form a leukocyte-like Fe3O4@Au nanostructure to treat microorganisms. Through high-temperature reduction of HAuCl4 with L-dopamine, Au atoms are spontaneously generated along with Fe3O4 nanoclusters via a site-selected atom deposition process between the Au(111) and Fe3O4(222) lattice planes. Combining the magnetic properties of Fe3O4 and the optical functionality of gold nanoparticles, the Fe3O4@Au nanohybrid exhibits effective photothermal conversion and magnetism-guided aggregation to improve the molecular surface-enhanced Raman scattering (SERS) signal, achieving a limit of detection on the micromolar to nanomolar level for methylene blue (MB) and 4-aminothiophenol (4-ATP). After magnetism-assisted adsorption, we adopt Escherichia coli (E. coli) as a model analyte and demonstrate label-free SERS sensing of bacterial cell molecular structures based on optical fingerprints and recyclable photothermal ablation of bacterial pathogens (Gram-positive, Gram-negative, and anaerobic bacteria).

Graphical abstract: Assembled growth of 3D Fe3O4@Au nanoparticles for efficient photothermal ablation and SERS detection of microorganisms

Supplementary files

Article information

Article type
Paper
Submitted
05 Mar 2018
Accepted
10 Aug 2018
First published
14 Aug 2018

J. Mater. Chem. B, 2018,6, 5689-5697

Assembled growth of 3D Fe3O4@Au nanoparticles for efficient photothermal ablation and SERS detection of microorganisms

W. Hong, I. Hsu, S. Huang, C. Lee, H. Ko, P. Tsai, D. Shieh and C. Huang, J. Mater. Chem. B, 2018, 6, 5689 DOI: 10.1039/C8TB00599K

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