Spectroscopic and photothermal characterization of graphene quantum dots for antimicrobial applications

Spectroscopic and photothermal characterization of graphene quantum dots for antimicrobial applications

Antimicrobial resistance is a challenging health problem that demands alternative treatments. Nanoplatforms with antimicrobial properties, associated with photodynamic and photothermal therapies, are potential candidates for this task due to characteristics such as non-invasive, antibiotic-free, dua...

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Bibliographic Details
Main Authors: Astrath, N.G.C (Author), Bergmann, E.V (Author), Catanio, A.T.S (Author), Freitas, C.F (Author), Herculano, L.S (Author), Kimura, N.M (Author), Malacarne, L.C (Author), Petrucci, T. (Author)
Format: Article
Language:English
Published: American Institute of Physics Inc. 2022
Subjects:
Adverse effect
Antimicrobial agents
Anti-microbial properties
Antimicrobial resistances
Graphene
Graphene quantum dots
Light sources
Low toxicity
Low-costs
Microorganisms
Nanocrystals
Photo-thermal
Photothermal therapy
Property
Semiconductor quantum dots
Synthesis method
Therapeutic procedures
Online Access:View Fulltext in Publisher
Description
Summary:Antimicrobial resistance is a challenging health problem that demands alternative treatments. Nanoplatforms with antimicrobial properties, associated with photodynamic and photothermal therapies, are potential candidates for this task due to characteristics such as non-invasive, antibiotic-free, dual selectivity, and low adverse effects in therapeutic procedures. Graphene quantum dots are a possible substitute for other nanoparticles, especially by presenting low toxicity and low cost. However, graphene quantum dot properties are highly dependent on the synthesis methods, which makes it difficult to compare and improve methods using different studies. In this work, we apply spectroscopic and photothermal methods to investigate a commercially available green fluorescent graphene quantum dot (GQD) as a potential antimicrobial agent and to determine its theranostics properties. The results showed that the photoactivation of the GQD in phosphate-buffered saline solution by light sources with wavelengths shorter than the emission band can generate singlet oxygen and a heat yield of 50 % under excitation at 532 nm, showing the potential of this GQD as a photodynamic and photothermal agent. © 2022 Author(s).
ISBN:00218979 (ISSN)
DOI:10.1063/5.0084568

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