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Abstract

Polymeric Blends with Copper: A Powerful Weapon against Pathogenic Spread †

by
Cyril Santos
,
Hugo Marques
,
Artur Mateus
,
Nuno Alves
* and
Joana Filipa Abreu Valente
*
CDRSP-IPL—Centre for Rapid and Sustainable Product Development, Polytechnic of Leiria, Rua de Portugal, 2430-028 Marinha Grande, Portugal
*
Authors to whom correspondence should be addressed.
Presented at the Materiais 2022, Marinha Grande, Portugal, 10–13 April 2022.
Mater. Proc. 2022, 8(1), 80; https://doi.org/10.3390/materproc2022008080
Published: 7 June 2022
(This article belongs to the Proceedings of MATERIAIS 2022)
Versions Notes

The current pandemic situation leads us to adapt to this new reality and to search for alternatives regarding the materials that we use daily. Accordingly, it is often explained that the virus can remain on surfaces, making them potential vehicles for spread [1]. In this regard, the development of materials with antimicrobial properties has arisen.
Among the most studied antimicrobial solutions, there are metals (different kinds and applied in different formats) and, among them, copper (Cu) is one of the most used with proven antimicrobial properties. This metal has the ability to effectively inhibit and kill different bacterial and viral strains upon direct contact, either as coatings or as the surface material itself [2]. This happens due to the release of metallic ions that become toxic to microorganisms at high concentrations, leading to membrane rupture and, therefore, cell death [3].
Among the examples that could be shown using Cu for antimicrobial purposes, there is the work by Fujimori and collaborators (2012) that shows the inactivation of the H1N1 influenza virus [4] and human immunodeficiency virus (HIV) [5] by copper metals and divalent copper ions (Cu II). In addition, a variety of copper alloys have shown the ability to inactivate human coronavirus within a few minutes in some cases [6].
Concerning all the above, different polymeric/Cu blends were produced and optimized to achieve their best performance regarding the antimicrobial properties.

Author Contributions

Conceptualization, C.S. and J.F.A.V.; methodology C.S., H.M. and J.F.A.V.; validation, C.S., H.M. and J.F.A.V.; formal analysis, C.S., H.M. and J.F.A.V.; investigation, C.S., H.M. and J.F.A.V.; resources; writing—original draft preparation, C.S.; writing—review and editing, J.F.A.V.; supervision, A.M., N.A. and J.F.A.V.; funding acquisition, N.A., A.M. and J.F.A.V. All authors have read and agreed to the published version of the manuscript.

Funding

This work was supported by the Fundação para a Ciência e a Tecnologia (FCT) and Centro2020 through the following Projects: UIDB/04044/2020, UIDP/04044/2020, UIDB/00709/2020, PAMI-ROTEIRO/0328/2013 (Nº 022158), MATIS (CEN-TRO-01-0145-FEDER-000014) and Centro-01-02B7-FEDER-069244.

Institutional Review Board Statement

Not applicable.

Informed Consent Statement

Not applicable.

Data Availability Statement

Not applicable.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. Pereira, D.; Carreira, T.S.; Alves, N.; Sousa, Â.; Valente, J.F. Metallic Structures: Effective Agents to Fight Pathogenic Microorganisms. Int. J. Mol. Sci. 2022, 23, 1165. [Google Scholar] [CrossRef] [PubMed]
  2. Sunada, K.; Minoshima, M.; Hashimoto, K. Highly efficient antivi-ral and antibacterial activities of solid-state cuprous compounds. J. Hazard. Mater. 2012, 235, 265–270. [Google Scholar] [CrossRef] [PubMed]
  3. Akhidime, I.D.; Saubade, F.; Benson, P.S.; Butler, J.A.; Olivier, S.; Kelly, P.; Verran, J.; Whitehead, K.A. The antimicrobial effect of metal substrates on food pathogens. Food Bioprod. Process. 2019, 113, 68–76. [Google Scholar] [CrossRef]
  4. Fujimori, Y.; Sato, T.; Hayata, T.; Nagao, T.; Nakayama, M.; Nakayama, T.; Sugamata, R.; Suzuki, K. Novel antiviral characteristics of nanosized copper (I) iodide particles showing inactivation activity against 2009 pandemic H1N1 influenza virus. Appl. Environ. Microbiol. 2012, 78, 951–955. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  5. Borkow, G.; Lara, H.H.; Covington, C.Y.; Nyamathi, A.; Gabbay, J. Deactivation of human immunodeficiency virus type 1 in medium by copper oxide-containing filters. Antimicrob. Agents Chemother. 2008, 52, 518–525. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  6. Warnes, S.L.; Little, Z.R.; Keevil, C.W. Human coronavirus 229E remains infectious on common touch surface materials. mBio 2015, 6, e01697-15. [Google Scholar] [CrossRef] [PubMed] [Green Version]
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MDPI and ACS Style

Santos, C.; Marques, H.; Mateus, A.; Alves, N.; Valente, J.F.A. Polymeric Blends with Copper: A Powerful Weapon against Pathogenic Spread. Mater. Proc. 2022, 8, 80. https://doi.org/10.3390/materproc2022008080

AMA Style

Santos C, Marques H, Mateus A, Alves N, Valente JFA. Polymeric Blends with Copper: A Powerful Weapon against Pathogenic Spread. Materials Proceedings. 2022; 8(1):80. https://doi.org/10.3390/materproc2022008080

Chicago/Turabian Style

Santos, Cyril, Hugo Marques, Artur Mateus, Nuno Alves, and Joana Filipa Abreu Valente. 2022. "Polymeric Blends with Copper: A Powerful Weapon against Pathogenic Spread" Materials Proceedings 8, no. 1: 80. https://doi.org/10.3390/materproc2022008080

APA Style

Santos, C., Marques, H., Mateus, A., Alves, N., & Valente, J. F. A. (2022). Polymeric Blends with Copper: A Powerful Weapon against Pathogenic Spread. Materials Proceedings, 8(1), 80. https://doi.org/10.3390/materproc2022008080

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