Cooperativity and Oligomeric Status of Cardiac Muscarinic Cholinergic Receptors

Nanomaterials such as silver nanoparticles and graphene-based composites are known to exhibit biocidal activities. However, interactions with surrounding medium or supporting substrates can significantly influence this activity. Here, it is shown that superior antimicrobial properties of natural shellac-derived graphene oxide (GO) coatings is obtained on metallic films, such as Zn, Ni, Sn, and steel. It is also found that such activities are directly correlated to the electrical conductivity of the GO-metal systems; the higher the conductivity the better is the antibacterial activity. GO-metal substrate interactions serve as an efficient electron sink for the bacterial respiratory pathway, where electrons modify oxygen containing functional groups on GO surfaces to generate reactive oxygen species (ROS). A concerted effect of nonoxidative electron transfer mechanism and consequent ROS mediated oxidative stress to the bacteria result in an enhanced antimicrobial action of naturally derived GO-metal films. The lack of germicidal effect in exposed cells for GO supported on electrically nonconductive substrates such as glass corroborates the above hypothesis. The results can lead to new GO coated antibacterial metal surfaces important for environmental and biomedical applications.

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Preparation of graphene oxide by dry planetary ball milling process from natural graphite

Dash

Rout

et al. 2016

RSC Adv.

122

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Development of conducting polyaniline coating: a novel approach to superior corrosion resistance

Rout

Jha

Singh

et al. 2003

Surface and Coatings Technology

137

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Development of superhydrophobic corrosion resistance coating on mild steel by electrophoretic deposition

Dey

Chatterjee

Singh

et al. 2018

Surface and Coatings Technology

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Water-based & eco-friendly epoxy-silane hybrid coating for enhanced corrosion protection & adhesion on galvanized steel

Bera

Rout

Udayabhanu

et al. 2016

Progress in Organic Coatings

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Tapan Kumar Rout

Electron Transfer Directed Antibacterial Properties of Graphene Oxide on Metals

Preparation of graphene oxide by dry planetary ball milling process from natural graphite

Development of conducting polyaniline coating: a novel approach to superior corrosion resistance

Development of superhydrophobic corrosion resistance coating on mild steel by electrophoretic deposition

Water-based & eco-friendly epoxy-silane hybrid coating for enhanced corrosion protection & adhesion on galvanized steel

Contact Info

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