Abstract
BackgroundImprudent use of antimicrobial drugs has resulted in the microbial resistance among the known microbes and hence we foresee a pressing need towards the development of novel, low-cost, and high potent antimicrobials which should be munificent by nature. In the pursuit of the above, phosphoric acid activated low-cost carbon was produced from a renewable phytomass precursor viz., leaves of Vitex negundo L. plant and explored for its antibacterial efficacy against four human pathogens viz., S. aureus, S. pyogenes (Gram-positive bacteria), and E. coli, P. aeruginosa (Gram-negative bacteria) by adopting well diffusion method. Carbon yield, burn-off, phase purity, elemental composition, particle morphology, and surface functionalities have been studied by ultimate elemental analysis, X-ray diffractometry, elemental analysis, scanning electron microscopy, and Fourier transform infrared spectrophotometry respectively. Minimal inhibition concentration (MIC) was also followed. Plausible mechanism of killing the pathogens by the above activated carbon was also provided.ResultsVitex negundo leaves derived activated carbon (VNLAC) was found to contain large number of O-, S- and N-containing surface groups which are supposedly responsible for bestowing antibacterial properties to the carbon derived from Vitex negundo leaves. It has emerged as a potential antibacterial agent for many Gram-negative as well as Gram-positive bacteria. The inhibition zone of mean diameters ranged from 9 to 25 mm against all the pathogens was significantly (p < 0.05) less than that of the control viz., ciprofloxacin. Thus, the fundamental experimental results may extend the limits of carbon sources but also the conventional idea of obtaining active carbon to apply in technologies where carbon is inevitable.ConclusionThe work not only demonstrates the promising potential of VNLAC as an efficient antibacterial agent but also presents a feasible mechanism of action of removing pathogens. Vitex negundo-derived carbon may become a cheap substitute for cost-prohibitive drugs. The findings of the work illustrate an easy choice as an antibacterial for topical application at infected sites.
Highlights
Imprudent use of antimicrobial drugs has resulted in the microbial resistance among the known microbes and we foresee a pressing need towards the development of novel, low-cost, and high potent antimicrobials which should be munificent by nature
Activated carbon sample produced from phosphoric acid activation of the leaf biomass of V. negundo plant was evaluated by diverse techniques and the noteworthy results are presented
Physico-chemical features of Vitex negundo leaves derived activated carbon (VNLAC) Yield and burn-off The % yield of the activated carbon is the ratio of the weight of the activated carbon (w) obtained to that of the dry and powdered biomass (w0) taken and is given by the following formula: Yield ð%Þ 1⁄4 ðw=w0Þ Â 100%: The burn-off is the weight loss percentage due to the activation step
Summary
Imprudent use of antimicrobial drugs has resulted in the microbial resistance among the known microbes and we foresee a pressing need towards the development of novel, low-cost, and high potent antimicrobials which should be munificent by nature. Technological developments towards the design and synthesis of carbon-based antimicrobials that too from waste biomass that will reduce microbial resistance and infection burden have zeroed-in recently. Falling in this line, the present work explores the prospects of utilizing zero-cost leaf biomass of Vitex negundo L. plant for deriving activated carbon for evaluating its antibacterial properties
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