Fluoropolymer coatings with inherent resistance to biofouling

Little B J, ‘Succession in microfouling’,Marine Biodeterioration: An Interdisciplinary Study, 63–7, eds J D Costlow and R C Tipper, Naval Institute Press, Annapolis MD, 1984

Mitchell R, ‘Colonisation by higher organisms’,Microbial Adhesion and Aggregation, 189–200, ed K C Marshall, Springer-Verlag, Berlin, 1984

Schrader M E, J A Caramone, G I Leob and O P Arora,Marine Biodeterioration, 261–5, eds M-F Thomson, R Sarojini, R Nagabhushanam and A A Balkema, Rotterdam, 1988

Tsibouklis J, M Stone, A A Thorpe, P D Graham, V Peters, R Heerlien, J R Smith, K L Creen and T C Nevell, ‘Preventing bacterial adhesion onto surfaces: the low surface energy approach’,Biomaterials,20, (13), 1229–35, 1999

Tsibouklis J, M Stone, A A Thorpe, P D Graham, T G Nevell and R J Ewen, ‘Surface energy characteristics of polymer film structures: a further insight into the molecular design requirements’,Langmuir,15, 7076–9, 1999

Good R J and C J van Oss, ‘The modern theory of contact angles and the hydrogen bond components of surface energies,Modern Approach to Wettability: Theory and Applications, 1–27, eds M E Schrader and G Loeb, Plenum Press, NY, 1991

Callow M E, J A Callow, J D Pickett-Heaps and R Wetherbee, ‘Primary adhesion ofEnteromorpha (chlorophyta, ulvales) propagules: quantitative settlement studies and video microscopy’,J Phycol,33, 938–47, 1997

Brady R F Jr, J R Griffith, K S Love and D E Field, ‘Non-toxic alternatives to antifouling paints’,Journal of Coatings Technology,59, (755), 113–9, 1987