Combinatorial materials research applied to the development of new surface coatings VI: An automated spinning water jet apparatus for the high-throughput characterization of fouling-release marine coatings

Large numbers of coatings can be generated very quickly using a combinatorial high-throughput approach. Rapid screening assays are typically required to adequately evaluate and down select coating candidates to identify promising compositions. An automated, spinning water jet apparatus was developed...

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Veröffentlicht in:	Review of scientific instruments 2007-07, Vol.78 (7), p.072204-072204
Hauptverfasser:	Stafslien, Shane J, Bahr, James A, Daniels, Justin W, Wal, Lyndsi Vander, Nevins, Jonathan, Smith, Jeremy, Schiele, Kris, Chisholm, Bret
Format:	Artikel
Sprache:	eng
Schlagworte:	Bacterial Adhesion - physiology Biofilms Coated Materials, Biocompatible - chemistry Combinatorial Chemistry Techniques - instrumentation Combinatorial Chemistry Techniques - methods Equipment Contamination - prevention & control Equipment Design Equipment Failure Analysis Materials Testing - methods Pressure Robotics - instrumentation Robotics - methods Rotation Surface Properties Water
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container_end_page	072204
container_issue	7
container_start_page	072204
container_title	Review of scientific instruments
container_volume	78
creator	Stafslien, Shane J Bahr, James A Daniels, Justin W Wal, Lyndsi Vander Nevins, Jonathan Smith, Jeremy Schiele, Kris Chisholm, Bret
description	Large numbers of coatings can be generated very quickly using a combinatorial high-throughput approach. Rapid screening assays are typically required to adequately evaluate and down select coating candidates to identify promising compositions. An automated, spinning water jet apparatus was developed to rapidly characterize the adhesion strength of marine organisms to coating surfaces. Coating arrays are cast in multiwell plates and subjected to a jet of water of controlled pressure and duration. Array plates are manipulated by a robotic arm to facilitate accurate and repeatable water jet treatments. Jet pressures of 40-688 kPa can be generated and precisely maintained by computer control. A five axis robotic arm selects plates from three plate stacking hotels yielding a total of 39 plates or 936 individual coating samples for each experimental run. All robotic instructions, process parameters, and data are stored and controlled by the computer. The large plate handling capacity offered by the robotic system enables the analysis of a wide variety of coatings for "fouling-release" properties. A brief example demonstrating the capability of the automated water jet apparatus to evaluate marine bacterial adhesion to coating surfaces is provided.
doi_str_mv	10.1063/1.2755965
format	Article
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subjects	Bacterial Adhesion - physiology Biofilms Coated Materials, Biocompatible - chemistry Combinatorial Chemistry Techniques - instrumentation Combinatorial Chemistry Techniques - methods Equipment Contamination - prevention & control Equipment Design Equipment Failure Analysis Materials Testing - methods Pressure Robotics - instrumentation Robotics - methods Rotation Surface Properties Water
title	Combinatorial materials research applied to the development of new surface coatings VI: An automated spinning water jet apparatus for the high-throughput characterization of fouling-release marine coatings
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