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'Nanopin film' is an experimental material in nanotechnology developed in 2005 with unusual superhydrophobic properties . A droplet of water makes contact with the surface of this film and forms an almost perfect sphere with a contact angle of 178°. The film is able to do this because it is covered with nanoscale topped off pins or cones perpendicular to the surface. The surface is regarded as a composite material with mostly air and a small fraction made up by the tops of the cones. When the contact angle of the cone material is sufficiently large Cassie's law predicts large contact angle values for the composite.
This particular nanopin film is produced with borosilicate glass as the primary substrate. A solution of CoCl₂•6H₂O or cobalt chloride hexahydrate is heated at 60 °C for 24 hours in a chemical bath deposition to form a brucite type cobalt(II) hydroxide layer with composition
:CoOH_1.13Cl_0.09(CO₃)_0.39.0.05H₂0
The top coating is provided by lauric acid in a separate step. A 3 square micrometer surface now contains on average 166 such cones with cone height of around 100 nm and the cone diameter at the tip of 6.5 nm. The Cassie's law prediction for this material with the lauric acid surface area of 0.000612 and flat film contact angle of 75° is 177.8°.

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★ Picture of droplet on surface nanopin film

References

# ''Superhydrophobic Perpendicular Nanopin Film by the Bottom-Up Process'' Eiji Hosono, Shinobu Fujihara, Itaru Honma, and Haoshen Zhou J. Am. Chem. Soc.; '2005'; 127(39) pp 13458 - 13459 Abstract Supporting info with pics