Here, we have studied the antibacterial
effects of a newly synthesized
carbon structure with excellent properties, named porous carbon cuboid
(PCC) nanoparticles, upon Gram-negative Escherichia
coli and Gram-positive Corynebacterium
glutamicum bacterial cells and its algicidal effects
upon Chlamydomonas reinhardtii microalgal
cells. More specifically, the antibacterial properties of PCCs enriched
with acid treatment (PCC-ox) or metal encapsulation (PCC-Cu and PCC-Ag)
were investigated under various concentrations of PCCs and their interaction
times. Additionally, the impact of PCCs upon microalgal growth was
estimated by measuring the total chlorophyll level during their cultivation.
As a result, E. coli and C. glutamicum were shown to be substantially inhibited
by PCCs, depending on their special characteristics, dose, and bacterial
strain. Moreover, it has been proven that the antibacterial effect
is time-dependent. Growth of C. reinhardtii was inhibited by PCCs in a material-dependent manner, whereas PCC-Ag
had the highest registered effect. These results suggest that PCCs
could be used as an effective antibacterial material, although consideration
should be given to issues involving the disposal of PCCs after usage,
given their level of toxic effect on the environment.