A coating system for defouling a substrate, such as a ship hull, immersed in water or seawater for long periods of time comprises a conductive layer, an antifouling layer and a means for providing an energy pulse to said conductive layer. The conductive layer comprises polymers, such as carbon fille
A coating system for defouling a substrate, such as a ship hull, immersed in water or seawater for long periods of time comprises a conductive layer, an antifouling layer and a means for providing an energy pulse to said conductive layer. The conductive layer comprises polymers, such as carbon filled polyethylene, which are electrically conductive. The antifouling layer comprises polymers, such as polydimethylsiloxane, which have a low surface free energy. The layers are designed such that when the conductive layer is exposed to a pulse of electrical, acoustic or microwave energy or combinations thereof, said conductive layer separates from said antifouling layer.
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What I claim is: 1. A coating system, said coating system comprising a coating array of 1 to 100 pairs of alternating antifouling and conductive layers, said coating array comprising: a) a conductive layer, said conductive layer: i. comprises one or more of the polymers polythiophene, polyfluorene,
What I claim is: 1. A coating system, said coating system comprising a coating array of 1 to 100 pairs of alternating antifouling and conductive layers, said coating array comprising: a) a conductive layer, said conductive layer: i. comprises one or more of the polymers polythiophene, polyfluorene, polyethylene, polyvinyl chloride, polyphenylene sulfide, polyaniline, polypyrole, polyacetylene, polythiophene, polyphenylenevinylene or their derivatives; ii. optionally comprises a conductive filler material, said filler material comprising one or more of conductive carbon, carbon fibers, carbon nanotubes, stainless steel, copper or aluminum; iii. has a thickness in the range of �� mil to 200 mils; and iv. has an electrical resistivity in the range of 108 ohm-cm to 1 ohm-cm; and b) an antifouling layer, said antifouling layer: i. comprises a low surface energy polymer, said polymer comprising one or more of polydimethylsiloxane, fluorinated polyurethane, fluorinated olefin, or their derivatives; and has a thickness in the range of �� mil to 300 mils; ii. whereby said conductive layer is bonded to said antifouling layer such that said bond is broken thus separating said conductive layer from said antifouling layer when said conductive layer is exposed to a pulse of energy of sufficient power and duration to heat said conductive layer without destroying said antifouling layer; and wherein said system comprises means for providing said pulse of energy to said conductive layer. 2. The system of claim 1 wherein said antifouling layer has a thickness in the range of 9 to 30 mils. 3. The system of claim 1 wherein said pulse of energy comprises a pulse of DC electric energy and a pulse of acoustic energy wherein said acoustic energy is tuned to the acoustic resonant frequency of said conductive layer and has an intensity of at least 200 decibels re 1 μPa and a duration of not more than 40 seconds. 4. The system of claim 1 wherein said system is adhered to a wooden piling immersed in sea water, said conductive layer substantially comprises polyphenylene sulfide and aluminum flakes, and said energy pulse substantially comprises RF electromagnetic energy tuned to a polyphenylene sulfide resonance. 5. The system of claim 1 wherein said system comprises a plurality of said coating arrays with means to independently apply energy pulses to each of said coating arrays and wherein said arrays are bonded to a submarine, said conductive layer substantially comprises polyethylene loaded with carbon fiber such that the bulk resistivity of said conductive layer is at least 1,000 ohm-cm, said antifoulant layer substantially comprises polydimethylsiloxane, said polyethylene has been modified to comprise carboxyl groups, said carboxyl groups serve to attach said conductive layer to said antifoulant layer via OH end terminations such that said antifoulant layer will debond from said conductive layer if said conductive layer is subjected to a DC voltage pulse of at least 200 volts along its length for at least 30 seconds. 6. The system of claim 1 wherein said antifouling layer substantially comprises polydimethylsiloxane with ��% silicone. 7. The system of claim 1 wherein said system comprises one or more of said coating arrays with means to independently apply energy pulses to each of said coating arrays. 8. The system of claim 7 wherein each of said arrays comprises a corresponding medicine, said arrays are applied to a stent and each of said medicines is individually released from said corresponding array upon application of an energy pulse to a conductive layer of said corresponding array. 9. The system of claim 7 wherein said arrays are applied to an optical device, said optical device being an interference filter, wave guide, or coated lens, and wherein one or more optical properties of said optical device is changed upon the application of a corresponding energy pulse to a corresponding array. 10. The system of claim 9 wherein said optical device is an interference filter and at least one of said optical properties is color. 11. The system of claim 7 wherein said coating arrays are applied to an electronic device such that each of said arrays corresponds to one or more elements of the circuitry of said device and wherein each of said one or more elements changes upon application of an energy pulse to a conductive layer of the corresponding array. 12. The system of claim 11 wherein at least one of said changes in said elements of said circuitry comprises a change from electronic to photonic functionality or vice versa. 13. The system of claim 1 wherein the coefficient of thermal expansion of said conductive layer is between 2 and 5 times the coefficient of thermal expansion of said antifouling layer. 14. The system of claim 1 wherein the number of said pairs of layers is between 3 and 5 and said conductive layer substantially comprises high density polyethylene, 0.25% maleic anhydride and 20% carbon fiber. 15. The system of claim 1 wherein said coating array comprises at least 5 pairs of said alternating conductive and antifouling layers and wherein the combined thickness of all of said antifouling layers is sufficient to last 25 years when said array is applied to the hull of a nuclear submarine in service in temperate waters. 16. The system of claim 1 wherein said array is applied to the hull of a ship in service in cold waters and said system further comprises means to collect said conductive layer after said conductive layer is separated from said antifouling layer and means to dispose of said separated conductive layer and any other layers or materials adhering thereto beyond the 200 mile limit in an environmentally responsible manner. 17. The system of claim 1 wherein said array is adhered to the hull of a cruise ship and said system further comprises means to manually activate the application of said pulse of energy. 18. The system of claim 1 wherein said array is adhered to the inside of a pipe. 19. The system of claim 18 wherein said pipe is part of the cooling system for a nuclear power plant. 20. The system of claim 18 wherein said pipe is part of the cooling system for a nuclear submarine. 21. The system of claim 1 wherein said coating array is applied to the hull of a ship. 22. The system of claim 21 wherein said system further comprises an underwater station and said station comprises means to provide said energy pulse, said energy pulse being either an acoustical energy pulse, electrical energy pulse or both.
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