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A corrosion inhibiting structure includes a mineral tubule having a first end, a second end, and a lumen extending from the first end to the second end. The lumen terminates in a first opening at the first end and a second opening at the second end. The corrosion inhibiting structure also includes a

A corrosion inhibiting structure includes a mineral tubule having a first end, a second end, and a lumen extending from the first end to the second end. The lumen terminates in a first opening at the first end and a second opening at the second end. The corrosion inhibiting structure also includes an anticorrosion deposit disposed within the lumen, and first and second precipitate stoppers covering the first and second openings, respectively. A coating composition includes a population of corrosion inhibiting structures and a coating material. A method of inhibiting corrosion includes loading anticorrosion agent deposits into lumens, forming stoppers at first and second openings by mixing loaded mineral tubules with a solution containing a predetermined concentration of transition metal ions, mixing the loaded mineral tubules having stoppers with a coating material to form a composite material, and applying the composite material to a metal surface.

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1. A corrosion inhibiting structure comprising: a mineral tubule having a first end, a second end, and a lumen extending from said first end to said second end, wherein said lumen terminates in a first opening at said first end of said mineral tubule, and wherein said lumen terminates in a second op

1. A corrosion inhibiting structure comprising: a mineral tubule having a first end, a second end, and a lumen extending from said first end to said second end, wherein said lumen terminates in a first opening at said first end of said mineral tubule, and wherein said lumen terminates in a second opening at said second end of said mineral tubule;a deposit of one or more reagents disposed within said lumen, wherein said reagents comprise an anticorrosion agent; anda first precipitate stopper covering said first opening and a second precipitate stopper covering said second opening, wherein said first and second precipitate stoppers each comprise a precipitate formed by the interaction of said anticorrosion agent leaking from said lumen and one or more counter-reagents disposed outside of said mineral tubule, wherein said one or more counter-reagents comprise one or more metal ions, and wherein said anticorrosion agent is capable of forming a two-dimensional complex film with said one or more metal ions. 2. The corrosion inhibiting structure of claim 1, wherein said mineral tubule is a halloysite clay microtubule. 3. The corrosion inhibiting structure of claim 2, wherein said halloysite clay microtubule is in the size range of 15-50 nm in inner diameter, 50-200 nm in external diameter, and 500-3000 nm in length. 4. The corrosion inhibiting structure of claim 1, wherein said first and second precipitate stoppers have solubility values of less than 10−9 M in water. 5. The corrosion inhibiting structure of claim 1, wherein said anticorrosion agent is at least one of benzotriazole, hydroxyquinoline, 2-mercaptobenzothiazole, and 2-mercaptobenzimidazole. 6. The corrosion inhibiting structure of claim 1, wherein said metal ions are transition metal ions. 7. The corrosion inhibiting structure of claim 6, wherein said transition metal ions are at least one of copper(II), iron(II), iron(III), and cobalt(II). 8. A coating composition comprising a mixture of: a coating material; andone or more corrosion inhibiting structures, each corrosion inhibiting structure comprising: a mineral tubule having a lumen extending from a first opening on a first end of said mineral tubule to a second opening on a second end of said mineral tubule, a deposit of one or more reagents disposed within said lumen, said reagents comprising an anticorrosion agent, a first precipitate stopper covering said first opening, and a second precipitate stopper covering said second opening, wherein said first and second precipitate stoppers each comprise a precipitate formed by the interaction of said anticorrosion agent leaking from said lumen with one or more counter-reagents disposed outside of said mineral tubule, wherein said one or more counter-reagents comprise one or more metal ions, and wherein said anticorrosion agent is capable of forming a two-dimensional complex film with said one or more metal ions. 9. The coating composition of claim 8, wherein said coating material is capable of being mixed with a clay-based inorganic filler. 10. The coating composition of claim 8, wherein said coating material is at least one of an oil-based paint, an epoxy-based paint, an acrylic latex paint, and a polyurethane paint.