Ren-Siang Wu scite author profile

We have developed a one-step method to synthesize carbon quantum dots (CQD) from biogenic polyamines (PAs) as an antibacterial agent for topical treatment of bacterial keratitis (BK). CQDs synthesized by direct pyrolysis of spermidine (Spd) powder through a simple dry heating treatment exhibit a solubility and yield much higher than those from putrescine and spermine. We demonstrate that CQDs obtained from Spds (CQD) possess effective antibacterial activities against non-multidrug-resistant Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa, and Salmonella enterica serovar Enteritidis bacteria and also against the multidrug-resistant bacteria, methicillin-resistant S. aureus. The minimal inhibitory concentration (MIC) of CQD is ∼2500-fold lower than that of spermidine alone, demonstrating their strong antibacterial capabilities. Investigation of the possible mechanisms behind the antibacterial activities of the as-synthesized CQD indicates that the super-cationic CQD with small size (diameter ca. 6 nm) and highly positive charge (ζ-potential ca. +45 mV) cause severe disruption of the bacterial membrane. In vitro cytotoxicity, hemolysis, hemagglutination, genotoxicity, and oxidative stress and in vivo morphologic and physiologic cornea change evaluations show the good biocompatibility of CQD. Furthermore, topical ocular administration of CQD can induce the opening of the tight junction of corneal epithelial cells, thereby leading to great antibacterial treatment of S. aureus-induced BK in rabbits. Our results suggest that CQD are a promising antibacterial candidate for clinical applications in treating eye-related bacterial infections and even persistent bacteria-induced infections.

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Fluorescent Carbon Dots for Selective Labeling of Subcellular Organelles

Unnikrishnan

Wei

et al. 2020

ACS Omega

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With the recent advancement in understanding and control of the structure and optical properties of fluorescent carbon dots (CDs), they have been shown to be valuable in biolabeling of bacteria, tumor cells, tissues, and organelles. Their extremely small size and tunable functional properties coupled with ultrastable fluorescence enable CDs to be used for easy and effective labeling of various organelles. In addition, CDs with advantages of easy preparation and functionalization with recognition elements and/or drugs have emerged as nanocarriers for organelle-targeted drug delivery. In this review, we mainly discuss the applications of fluorescent CDs for the labeling of organelles, including lysosome, nucleoli, nucleus, endoplasmic reticulum, and mitochondria. We highlight the importance of the surface properties (functional groups, hydrophobicity/hydrophilicity, charges, zwitterions) and the size of CDs for labeling. Several interesting examples are provided to highlight the potential and disadvantages of CDs for labeling organelles. Strategies for the preparation of CDs for specific labeling of organelles are suggested. With the edge in preparation of diverse CDs, their potential in labeling and drug delivery is highly expected.

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The analytical and biomedical applications of carbon dots and their future theranostic potential: A review

Ross¹,

Wu²,

Wei³

et al. 2020

Journal of Food and Drug Analysis

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Stable carbon encapsulated titanium carbide MXene aqueous ink for fabricating high-performance supercapacitors

Sangili

Unnikrishnan

Nain

et al. 2022

Energy Storage Materials

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Evaluation of chemotherapeutic response in living cells using subcellular Organelle‒Selective amphipathic carbon dots

Lin

Nain

et al. 2022

Biosensors and Bioelectronics

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Ren-Siang Wu

Super-Cationic Carbon Quantum Dots Synthesized from Spermidine as an Eye Drop Formulation for Topical Treatment of Bacterial Keratitis

Fluorescent Carbon Dots for Selective Labeling of Subcellular Organelles

The analytical and biomedical applications of carbon dots and their future theranostic potential: A review

Stable carbon encapsulated titanium carbide MXene aqueous ink for fabricating high-performance supercapacitors

Evaluation of chemotherapeutic response in living cells using subcellular Organelle‒Selective amphipathic carbon dots

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