Affiliation:
1. Manchester Metropolitan University, Chester St, Manchester M1 5GD, UK
2. BASF Corporation (Formerly Ciba Speciality Chemicals Inc.), Tarrytown, NY, USA
Abstract
Microbial biofouling on polymer surfaces can lead to their biodeterioration. This may result in deterioration of the surface, leading to cracking and fracturing. Fungal spores from
Aspergillus niger
1957,
Aspergillus niger
1988 and
Aureobasidium pullulans
were tested to determine their strength of attachment on three surfaces, p(γ-MPS-co-MMA), p(γ-MPS-co-LMA) and spin-coated poly(methyl methacrylate) (PMMAsc), using lateral force measurements. The results demonstrate that
A. niger
1957 and
A. niger
1988 spores were most easily removed from the p(γ-MPS-co-MMA) surface, which was the surface with the highest
R
a
value. The
A. niger
1957 and
A. pullulans
spores were most difficult to remove from the PMMAsc surface, which was the hardest surface.
A. niger
1988 spores were the most difficult to remove from p(γ-MPS-co-LMA), the most hydrophobic surface. The results with
A. pullulans
were difficult to elucidate since the spores bound to all three surfaces and were removed with similar rates of force. The lateral force results demonstrate that spore attachment to a surface is a multi-factorial process, and independent surface and microbial factors influence spore binding. Thus, each environmental scenario needs to be considered on an individual basis, since a solution to one biofouling issue will probably not translate across to other systems.
This article is part of the theme issue 'Nanocracks in nature and industry'.
Funder
BASF Inc. (Formerly Ciba Speciality Chemicals Inc.), Grenzach, Germany
Subject
General Physics and Astronomy,General Engineering,General Mathematics
Cited by
3 articles.
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