K
Keith Stokes
Researcher at University of Southampton
Publications - 83
Citations - 4294
Keith Stokes is an academic researcher from University of Southampton. The author has contributed to research in topics: Corrosion & Coating. The author has an hindex of 29, co-authored 82 publications receiving 3671 citations. Previous affiliations of Keith Stokes include Defence Science and Technology Laboratory & Salisbury University.
Papers
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Modern approaches to marine antifouling coatings
TL;DR: A review of antifouling coatings for the prevention of marine biological fouling can be found in this article, where the authors highlight modern approaches to environmentally effective anti-fouling systems and their performance.
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Developments in electrode materials and electrolytes for aluminium-air batteries
D.R.P. Egan,C. Ponce de León,Robert J.K. Wood,Richard L. Jones,Keith Stokes,Keith Stokes,Frank C. Walsh +6 more
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Marine biofilms on artificial surfaces: structure and dynamics
TL;DR: Overall, differences have been identified in species composition between biofilm and planktonic forms for both diatoms and bacteria at various exposure sites, and issues such as reproducibility, differences in exposure sites and biofilm composition may influence the outcomes.
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The corrosion of nickel–aluminium bronze in seawater
Julian A. Wharton,R.C. Barik,G. Kear,Robert J.K. Wood,Keith Stokes,Keith Stokes,Frank C. Walsh +6 more
TL;DR: In this paper, the corrosion behavior of cast and wrought NAB alloys is illustrated through a range of electrochemical techniques including open-circuit potentiometry with time, oxygen reduction voltammetry, NAB dissolution voltammetric, potential step (or flow step) current transients and linear polarisation resistance.
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Designing biomimetic antifouling surfaces.
Maria Salta,Julian A. Wharton,Paul Stoodley,Simon Dennington,L.R. Goodes,Stephane Werwinski,Ugar Mart,Robert J.K. Wood,Keith Stokes +8 more
TL;DR: This review will explore the natural and biomimetic AF surface strategies for marine systems, which may well provide new insights into designing and developing alternative, non-toxic, surface-active antifouling technologies.