Low-dimensional nanomaterials for antibacterial applications

The excessive use of antibiotics has led to a rise in drug-resistant bacteria. These "superbugs" are continuously emerging and becoming increasingly harder to treat. As a result, new and effective treatment protocols that have minimal risks of generating drug-resistant bacteria are urgentl...

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Published inJournal of materials chemistry. B, Materials for biology and medicine Vol. 9; no. 17; pp. 364 - 3661
Main Authors Hu, Xi-Le, Shang, Ying, Yan, Kai-Cheng, Sedgwick, Adam C, Gan, Hui-Qi, Chen, Guo-Rong, He, Xiao-Peng, James, Tony D, Chen, Daijie
Format Journal Article
LanguageEnglish
Published England Royal Society of Chemistry 05.05.2021
Subjects
Antibiotics
Antiinfectives and antibacterials
Bacteria
chemistry
Drug resistance
drugs
Nanomaterials
Nanotechnology
therapeutics
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Abstract The excessive use of antibiotics has led to a rise in drug-resistant bacteria. These "superbugs" are continuously emerging and becoming increasingly harder to treat. As a result, new and effective treatment protocols that have minimal risks of generating drug-resistant bacteria are urgently required. Advanced nanomaterials are particularly promising due to their drug loading/releasing capabilities combined with their potential photodynamic/photothermal therapeutic properties. In this review, 0-dimensional, 1-dimensional, 2-dimensional, and 3-dimensional nanomaterial-based systems are comprehensively discussed for bacterial-based diagnostic and treatment applications. Since the use of these platforms as antibacterials is relatively new, this review will provide appropriate insight into their construction and applications. As such, we hope this review will inspire researchers to explore antibacterial-based nanomaterials with the aim of developing systems for clinical applications. In this review we discuss the development of nanomaterial based systems for antibacterial applications.
AbstractList The excessive use of antibiotics has led to a rise in drug-resistant bacteria. These "superbugs" are continuously emerging and becoming increasingly harder to treat. As a result, new and effective treatment protocols that have minimal risks of generating drug-resistant bacteria are urgently required. Advanced nanomaterials are particularly promising due to their drug loading/releasing capabilities combined with their potential photodynamic/photothermal therapeutic properties. In this review, 0-dimensional, 1-dimensional, 2-dimensional, and 3-dimensional nanomaterial-based systems are comprehensively discussed for bacterial-based diagnostic and treatment applications. Since the use of these platforms as antibacterials is relatively new, this review will provide appropriate insight into their construction and applications. As such, we hope this review will inspire researchers to explore antibacterial-based nanomaterials with the aim of developing systems for clinical applications. In this review we discuss the development of nanomaterial based systems for antibacterial applications.
The excessive use of antibiotics has led to a rise in drug-resistant bacteria. These “superbugs” are continuously emerging and becoming increasingly harder to treat. As a result, new and effective treatment protocols that have minimal risks of generating drug-resistant bacteria are urgently required. Advanced nanomaterials are particularly promising due to their drug loading/releasing capabilities combined with their potential photodynamic/photothermal therapeutic properties. In this review, 0-dimensional, 1-dimensional, 2-dimensional, and 3-dimensional nanomaterial-based systems are comprehensively discussed for bacterial-based diagnostic and treatment applications. Since the use of these platforms as antibacterials is relatively new, this review will provide appropriate insight into their construction and applications. As such, we hope this review will inspire researchers to explore antibacterial-based nanomaterials with the aim of developing systems for clinical applications.
The excessive use of antibiotics has led to a rise in drug-resistant bacteria. These "superbugs" are continuously emerging and becoming increasingly harder to treat. As a result, new and effective treatment protocols that have minimal risks of generating drug-resistant bacteria are urgently required. Advanced nanomaterials are particularly promising due to their drug loading/releasing capabilities combined with their potential photodynamic/photothermal therapeutic properties. In this review, 0-dimensional, 1-dimensional, 2-dimensional, and 3-dimensional nanomaterial-based systems are comprehensively discussed for bacterial-based diagnostic and treatment applications. Since the use of these platforms as antibacterials is relatively new, this review will provide appropriate insight into their construction and applications. As such, we hope this review will inspire researchers to explore antibacterial-based nanomaterials with the aim of developing systems for clinical applications.The excessive use of antibiotics has led to a rise in drug-resistant bacteria. These "superbugs" are continuously emerging and becoming increasingly harder to treat. As a result, new and effective treatment protocols that have minimal risks of generating drug-resistant bacteria are urgently required. Advanced nanomaterials are particularly promising due to their drug loading/releasing capabilities combined with their potential photodynamic/photothermal therapeutic properties. In this review, 0-dimensional, 1-dimensional, 2-dimensional, and 3-dimensional nanomaterial-based systems are comprehensively discussed for bacterial-based diagnostic and treatment applications. Since the use of these platforms as antibacterials is relatively new, this review will provide appropriate insight into their construction and applications. As such, we hope this review will inspire researchers to explore antibacterial-based nanomaterials with the aim of developing systems for clinical applications.
Author Chen, Guo-Rong
Gan, Hui-Qi
Sedgwick, Adam C
Chen, Daijie
Hu, Xi-Le
James, Tony D
Shang, Ying
Yan, Kai-Cheng
He, Xiao-Peng
AuthorAffiliation Frontiers Center for Materiobiology and Dynamic Chemistry
Henan Normal University
Feringa Nobel Prize Scientist Joint Research Center
East China University of Science and Technology
University of Bath
Claverton Down
Shanghai Jiao Tong University
Key Laboratory for Advanced Materials and Joint International Research Laboratory of Precision Chemistry and Molecular Engineering
Department of Chemistry
The University of Texas at Austin
School of Chemistry and Molecular Engineering
School of Pharmacy
School of Chemistry and Chemical Engineering
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  publication-title: ACS Appl. Mater. Interfaces
  doi: 10.1021/acsami.0c02524
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Snippet The excessive use of antibiotics has led to a rise in drug-resistant bacteria. These "superbugs" are continuously emerging and becoming increasingly harder to...
The excessive use of antibiotics has led to a rise in drug-resistant bacteria. These “superbugs” are continuously emerging and becoming increasingly harder to...
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SubjectTerms Antibiotics
Antiinfectives and antibacterials
Bacteria
chemistry
Drug resistance
drugs
Nanomaterials
Nanotechnology
therapeutics
Title Low-dimensional nanomaterials for antibacterial applications
URI https://www.ncbi.nlm.nih.gov/pubmed/33870985
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Volume 9
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