Issue 9, 2020

Ultra high molecular weight polyethylene with incorporated crystal violet and gold nanoclusters is antimicrobial in low intensity light and in the dark

Abstract

Antibiotics lose their effectiveness over time due to antimicrobial resistance. The increasing risk of hospital-acquired infections from contaminated surfaces and medical interventions requires the development of new antimicrobial materials. We report the first example of a modified ultra high molecular weight polyethylene that showed good antibacterial properties on light activation. Its efficacy was due to the production of reactive oxygen species under low-intensity white light sources (ca. 375 lux). Crystal violet and cysteine capped gold nanoclusters were successfully incorporated into the polymer using a readily available solvent as a dispersing agent followed by the process of compression moulding at 200 °C, 4.5 MPa for 1 min. This modified ultra-high molecular weight polyethylene demonstrates excellent robustness with regards to dye and metal leaching as well as photostability. Despite incorporating antimicrobial agents, the modified ultra-high molecular weight polyethylene retained its mechanical properties and showed >99% reduction in bacterial numbers against Escherichia coli and. To our knowledge, this paper reports the first use of compression moulding to create a light-activated antimicrobial surface which has distinct processing advantages over the widely used “swell-encapsulation-shrink” method and is potentially scalable.

Graphical abstract: Ultra high molecular weight polyethylene with incorporated crystal violet and gold nanoclusters is antimicrobial in low intensity light and in the dark

Article information

Article type
Paper
Submitted
16 Sept. 2020
Accepted
04 Nov. 2020
First published
11 Nov. 2020
This article is Open Access
Creative Commons BY-NC license

Mater. Adv., 2020,1, 3339-3348

Ultra high molecular weight polyethylene with incorporated crystal violet and gold nanoclusters is antimicrobial in low intensity light and in the dark

K. Wu, G. Wu, A. J. MacRobert, E. Allan, A. Gavriilidis and I. P. Parkin, Mater. Adv., 2020, 1, 3339 DOI: 10.1039/D0MA00710B

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