Sentence examples for antimicrobial functionality from inspiring English sources

We hypothesize that these phytochemicals mobilized during pomace bioprocessing could improve the antimicrobial functionality.

We investigated whether these phenolic phytochemicals mobilized during bio-processing of the pomace would improve the antimicrobial functionality.

For the purpose of achieving higher antimicrobial functionality and circumventing the solubility problems associated with silver-based antimicrobial materials, duo- and multiaction-component composites harboring silver and its halides with other antimicrobial agents were fabricated [1 3].

As a result, considering the differences in size of bacteria (1 4 μm) in comparison to mammalian cells (above 10 µm) the bacteria were able to enter in contact with the inner part of the pores where the antimicrobial functionality has been placed.

Chitosan has been widely investigated as a natural biomaterial for many biomedical applications due to its biocompatibility, biodegradability, antimicrobial properties, and functionality.

Several recent publications demonstrate how the strength properties of cellulose nanofibrils can be utilized for various purposes, e.g., in nanocomposites [1 6], to improve strength properties of paper [7, 8], in thin films with high strength [9] and with added functionality such as antimicrobial activity [10].

To correlate antimicrobial activity with AuNP surface functionality, we plotted the MICs against the calculated AuNP end group log P values that quantitatively represent the relative NP surface hydrophobicity.

A strong structure-activity relationship was observed as a function of AgNPs functionality; providing guidance to activity prediction and rational design of effective antimicrobial nanoparticles.

A strong structure activity relationship was observed as a function of AuNP functionality, providing guidance to activity prediction and rational design of effective antimicrobial nanoparticles.

When immobilized on materials such as fabrics, enzymes can impart novel sophisticated functionalities ranging from antimicrobial effects to wound healing, self-cleaning or self-detoxifying properties.

The objective of this research was to use the food grade fungus R. oligosporus to release phenolic aglycones and relate its antioxidant functionality and diphenyl mobilization to antimicrobial activity against L. monocytogenes, V. parahaemolyticus and E. coli 0157 H7.