Antifouling performances of macro- to micro- to nano-copper materials for the inhibition of biofouling in its early stages

James Chapman; Laurianne Le Nor; Robert Brown; Eolann Kitteringham; Sonia Russell; Timothy Sullivan; Fiona Regan

doi:10.1039/c3tb21285h

Antifouling performances of macro- to micro- to nano-copper materials for the inhibition of biofouling in its early stages

James Chapman
, Laurianne Le Nor
, Robert Brown
, Eolann Kitteringham
, Sonia Russell
, Timothy Sullivan
, Fiona Regan

Central Queensland University
Dublin City University

Research output: Contribution to journal › Article › peer-review

Abstract

Copper has been known to possess antimicrobial properties since as far back as the Phoenician era where ship hulls were copper sheathed to prevent the inevitable effects of biofouling. As a consequence of evolving scientific research and development, the realisation of novel materials and agents has enabled new scientific branches-such as nanotechnology. In this paper we investigate the performance of different forms of copper (macro, micro and nano) for application as antifouling materials. Samples are deployed in SmartBay Ireland for four weeks and analysed for evidence of biofouling. It was found that copper in its nano form, produced the greatest antifouling effectiveness in both PDMS and sol-gel matrices.

Original language	English
Pages (from-to)	6194-6200
Number of pages	7
Journal	Journal of Materials Chemistry B
Volume	1
Issue number	45
DOIs	https://doi.org/10.1039/c3tb21285h
Publication status	Published - 7 Dec 2013
Externally published	Yes

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10.1039/c3tb21285h

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title = "Antifouling performances of macro- to micro- to nano-copper materials for the inhibition of biofouling in its early stages",

abstract = "Copper has been known to possess antimicrobial properties since as far back as the Phoenician era where ship hulls were copper sheathed to prevent the inevitable effects of biofouling. As a consequence of evolving scientific research and development, the realisation of novel materials and agents has enabled new scientific branches-such as nanotechnology. In this paper we investigate the performance of different forms of copper (macro, micro and nano) for application as antifouling materials. Samples are deployed in SmartBay Ireland for four weeks and analysed for evidence of biofouling. It was found that copper in its nano form, produced the greatest antifouling effectiveness in both PDMS and sol-gel matrices.",

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AU - Le Nor, Laurianne

AU - Brown, Robert

AU - Kitteringham, Eolann

AU - Russell, Sonia

AU - Sullivan, Timothy

AU - Regan, Fiona

PY - 2013/12/7

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AB - Copper has been known to possess antimicrobial properties since as far back as the Phoenician era where ship hulls were copper sheathed to prevent the inevitable effects of biofouling. As a consequence of evolving scientific research and development, the realisation of novel materials and agents has enabled new scientific branches-such as nanotechnology. In this paper we investigate the performance of different forms of copper (macro, micro and nano) for application as antifouling materials. Samples are deployed in SmartBay Ireland for four weeks and analysed for evidence of biofouling. It was found that copper in its nano form, produced the greatest antifouling effectiveness in both PDMS and sol-gel matrices.

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JO - Journal of Materials Chemistry B

JF - Journal of Materials Chemistry B

IS - 45

ER -

Antifouling performances of macro- to micro- to nano-copper materials for the inhibition of biofouling in its early stages

Abstract

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