Standing out as the new wonder bidimensional material, graphene oxide (GO) has aroused an exceptional interest in biomedical research by holding promise for being the antibacterial of future. First, GO possesses a specific interaction with microorganisms combined with a mild toxicity for human cells. Additionally, its antibacterial action seems to be directed to multiple targets in pathogens, causing both membranes mechanical injury and oxidative stress. Lastly, compared to other carbon materials, GO has easy and low-cost processing and is environmentfriendly.
This remarkable specificity and multi-targeting antibacterial activity come at a time when antibiotic resistance represents the major health challenge. Unfortunately, a comprehensive framework to understand how to effectively utilize this material against microorganisms is still lacking. In the last decade, several groups tried to define the mechanisms of interaction between GO flakes and pathogens but conflicting results have been reported. This review is focused on all the contradictions of GO antimicrobial properties in solution. Flake size, incubation protocol,
time of exposure and species considered are examples of factors influencing results. These parameters will be summarized and analyzed with the aim of defining the causes of contradictions, to allow fast GO clinical application.
Category: Projects
Graphene Pagurus in the Corriere della Sera !
Antibacterial action of graphene oxide, web and press release
Graphene Pagurus Versus Super Bugs
The super bugs are the plague of modern era. Super bugs are antibiotic resistant bacteria that will cause the death of thousands of people in the future. We need novel tools to sterilize surfaces and medical equipment; we also need novel approaches to defeat bacteria.
Within a collaboration with the University Cattolica, we recently reported in Scientific Reports on a novel “cloak” against super bugs. The cloak is a laser printed surface that includes graphene oxide. The cloak is able to kill the bacteria because the surface mimics the carapace of the Cancer Pagurus (picture above), which is known to repel dangerous organisms, and also uses graphene as a blade that cuts the bacteria (and also wrap and poison them), as in the following picture
The cloak is a novel very effective solution to sterilize surfaces, and our research sheds light on the effect of graphene against bacteria. We report 90% bacteria killing action.
Web release
http://www.graphene-info.com/graphene-oxide-helps-creating-antibacterial-cloack
http://lucbourne.scienceblog.com/74/treating-biofilms-to-an-antimicrobial-cloak/
Press release on the VANGUARD project
At minute 7,15
The results of the team of the Vanguard project presented at at the 60th annual meeting of the Biophysical Society, in Los Angeles appeared in Physics World
http://nanotechweb.org/cws/article/tech/64211
http://www.azonano.com/news.aspx?newsID=34445
https://cosmosmagazine.com/technology/five-new-uses-miracle-material-graphene
http://www.directorstalk.com/graphene-oxide-could-help-fight-hospital-acquired-infections-2/
http://www.milanofinanza.it/articoli/i-nuovi-killer-di-batteri-2075304?preview=false&access=FA
The research has been spotted by the Dailymail !
Other press release:
http://www.liberoquotidiano.it/news/salute/11893222/Funghi-e-batteri-killer-in-ospedale.html
Press Release in Italian “Donna del Corriere della Sera”
Press release in the Netherlands
Press release in Japan !
