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Literature DB >> 29177045

Correlation of Carbon Dots' Light-Activated Antimicrobial Activities and Fluorescence Quantum Yield.

Mohamad M Al Awak¹, Ping Wang², Shengyuan Wang¹, Yongan Tang³, Ya-Ping Sun², Liju Yang¹.

Abstract

This study investigated the photo-activated antibacterial function of a series of specifically prepared carbon dots with 2,2'-(ethylenedioxy)bis(ethylamine) as the surface functionalization molecule (EDA-CDots), whose fluorescence quantum yields (ΦF) ranged from 7.5% to 27%. The results revealed that the effectiveness of CDots' photo-activated bactericidal function was correlated with their observed ΦF values. The antimicrobial activities of these EDA-CDots against both Gram negative and Gram positive model bacterial species (E. coli and Bacillus subtilis, respectively) were also evaluated under conditions of varying other experimental parameters including dot concentrations and treatment times. Optimization of the bactericidal effect of the EDA-CDots by a combination of the selected ΦF, concentration and treatment time was explored, and mechanistic implications of the results are discussed.

Entities: Chemical Disease Mutation Species

Year: 2017 PMID： 29177045 PMCID： PMC5697777 DOI： 10.1039/C7RA05397E

Source DB: PubMed Journal: RSC Adv ISSN： 2046-2069 Impact factor: 3.361

22 in total

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2. Single-walled carbon nanotubes exhibit strong antimicrobial activity.

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5. Antibacterial effects of carbon nanotubes: size does matter!

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Journal: Langmuir Date: 2008-05-30 Impact factor: 3.882

6. In vitro action of carboxyfullerene.

Authors: Nina Tsao; Tien-Yau Luh; Chen-Kung Chou; Tsuey-Yu Chang; Jiunn-Jong Wu; Ching-Chuan Liu; Huan-Yao Lei
Journal: J Antimicrob Chemother Date: 2002-04 Impact factor: 5.790

7. Application of antimicrobial ice for reduction of foodborne pathogens (Escherichia coli O157:H7, Salmonella Typhimurium, Listeria monocytogenes) on the surface of fish.

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8. Inactivation of gram-negative bacteria by photosensitized porphyrins.

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9. The effects of the bacterial interaction with visible-light responsive titania photocatalyst on the bactericidal performance.

Authors: Chia-Liang Cheng; Der-Shan Sun; Wen-Chen Chu; Yao-Hsuan Tseng; Han-Chen Ho; Jia-Bin Wang; Pei-Hua Chung; Jiann-Hwa Chen; Pei-Jane Tsai; Nien-Tsung Lin; Mei-Shiuan Yu; Hsin-Hou Chang
Journal: J Biomed Sci Date: 2009-01-15 Impact factor: 8.410

10. Innovative cationic fullerenes as broad-spectrum light-activated antimicrobials.

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2. Carbon "quantum" dots for bioapplications.

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Review 3. Photodynamic Anti-Bacteria by Carbon Dots and Their Nano-Composites.

Authors: Xiaoyan Wu; Khurram Abbas; Yuxiang Yang; Zijian Li; Antonio Claudio Tedesco; Hong Bi
Journal: Pharmaceuticals (Basel) Date: 2022-04-18

Review 4. Carbon Nanodots in Photodynamic Antimicrobial Therapy: A Review.

Authors: Rachael Knoblauch; Chris D Geddes
Journal: Materials (Basel) Date: 2020-09-10 Impact factor: 3.623

5. Photodegradation of carbon dots cause cytotoxicity.

Authors: Yue-Yue Liu; Nan-Yang Yu; Wen-Di Fang; Qiao-Guo Tan; Rong Ji; Liu-Yan Yang; Si Wei; Xiao-Wei Zhang; Ai-Jun Miao
Journal: Nat Commun Date: 2021-02-05 Impact factor: 14.919

6. Carbon dots for effective photodynamic inactivation of virus.

Authors: Xiuli Dong; Rasheena Edmondson; Fan Yang; Yongan Tang; Ping Wang; Ya-Ping Sun; Liju Yang
Journal: RSC Adv Date: 2020-09-14 Impact factor: 4.036

7. Antimicrobial carbon nanodots: photodynamic inactivation and dark antimicrobial effects on bacteria by brominated carbon nanodots.

Authors: Rachael Knoblauch; Amanda Harvey; Estelle Ra; Ken M Greenberg; Judy Lau; Elizabeth Hawkins; Chris D Geddes
Journal: Nanoscale Date: 2020-11-19 Impact factor: 7.790