Review on the Antimicrobial Properties of Carbon Nanostructures

Review on the Antimicrobial Properties of Carbon Nanostructures

Swift developments in nanotechnology have prominently encouraged innovative discoveries across many fields. Carbon-based nanomaterials have emerged as promising platforms for a broad range of applications due to their unique mechanical, electronic, and biological properties. Carbon nanostructures (C...

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Main Authors: Ahmed Al-Jumaili, Surjith Alancherry, Kateryna Bazaka, Mohan V. Jacob
Format: Article
Language:English
Published: MDPI AG 2017-09-01
Series:Materials
Subjects:
carbon nanostructures
antimicrobial properties
fullerene
carbon nanotubes
graphene
diamond-like carbon
Online Access:https://www.mdpi.com/1996-1944/10/9/1066
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spelling doaj-fed72329b74f4de9987a5e7c90cfb8d82020-11-24T23:55:28ZengMDPI AGMaterials1996-19442017-09-01109106610.3390/ma10091066ma10091066Review on the Antimicrobial Properties of Carbon NanostructuresAhmed Al-Jumaili0Surjith Alancherry1Kateryna Bazaka2Mohan V. Jacob3Electronics Materials Lab, College of Science and Engineering, James Cook University, Townsville, QLD 4811, AustraliaElectronics Materials Lab, College of Science and Engineering, James Cook University, Townsville, QLD 4811, AustraliaElectronics Materials Lab, College of Science and Engineering, James Cook University, Townsville, QLD 4811, AustraliaElectronics Materials Lab, College of Science and Engineering, James Cook University, Townsville, QLD 4811, AustraliaSwift developments in nanotechnology have prominently encouraged innovative discoveries across many fields. Carbon-based nanomaterials have emerged as promising platforms for a broad range of applications due to their unique mechanical, electronic, and biological properties. Carbon nanostructures (CNSs) such as fullerene, carbon nanotubes (CNTs), graphene and diamond-like carbon (DLC) have been demonstrated to have potent broad-spectrum antibacterial activities toward pathogens. In order to ensure the safe and effective integration of these structures as antibacterial agents into biomaterials, the specific mechanisms that govern the antibacterial activity of CNSs need to be understood, yet it is challenging to decouple individual and synergistic contributions of physical, chemical and electrical effects of CNSs on cells. In this article, recent progress in this area is reviewed, with a focus on the interaction between different families of carbon nanostructures and microorganisms to evaluate their bactericidal performance.https://www.mdpi.com/1996-1944/10/9/1066carbon nanostructuresantimicrobial propertiesfullerenecarbon nanotubesgraphenediamond-like carbon
collection DOAJ
language English
format Article
sources DOAJ
author Ahmed Al-Jumaili
Surjith Alancherry
Kateryna Bazaka
Mohan V. Jacob
spellingShingle Ahmed Al-Jumaili
Surjith Alancherry
Kateryna Bazaka
Mohan V. Jacob
Review on the Antimicrobial Properties of Carbon Nanostructures
Materials
carbon nanostructures
antimicrobial properties
fullerene
carbon nanotubes
graphene
diamond-like carbon
author_facet Ahmed Al-Jumaili
Surjith Alancherry
Kateryna Bazaka
Mohan V. Jacob
author_sort Ahmed Al-Jumaili
title Review on the Antimicrobial Properties of Carbon Nanostructures
title_short Review on the Antimicrobial Properties of Carbon Nanostructures
title_full Review on the Antimicrobial Properties of Carbon Nanostructures
title_fullStr Review on the Antimicrobial Properties of Carbon Nanostructures
title_full_unstemmed Review on the Antimicrobial Properties of Carbon Nanostructures
title_sort review on the antimicrobial properties of carbon nanostructures
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2017-09-01
description Swift developments in nanotechnology have prominently encouraged innovative discoveries across many fields. Carbon-based nanomaterials have emerged as promising platforms for a broad range of applications due to their unique mechanical, electronic, and biological properties. Carbon nanostructures (CNSs) such as fullerene, carbon nanotubes (CNTs), graphene and diamond-like carbon (DLC) have been demonstrated to have potent broad-spectrum antibacterial activities toward pathogens. In order to ensure the safe and effective integration of these structures as antibacterial agents into biomaterials, the specific mechanisms that govern the antibacterial activity of CNSs need to be understood, yet it is challenging to decouple individual and synergistic contributions of physical, chemical and electrical effects of CNSs on cells. In this article, recent progress in this area is reviewed, with a focus on the interaction between different families of carbon nanostructures and microorganisms to evaluate their bactericidal performance.
topic carbon nanostructures
antimicrobial properties
fullerene
carbon nanotubes
graphene
diamond-like carbon
url https://www.mdpi.com/1996-1944/10/9/1066
work_keys_str_mv AT ahmedaljumaili reviewontheantimicrobialpropertiesofcarbonnanostructures
AT surjithalancherry reviewontheantimicrobialpropertiesofcarbonnanostructures
AT katerynabazaka reviewontheantimicrobialpropertiesofcarbonnanostructures
AT mohanvjacob reviewontheantimicrobialpropertiesofcarbonnanostructures
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