A self-repairing surface that stays clean and dry

I wouldn&#x27;t call the surface &quot;self-repairing&quot;. It&#x27;s just an idea to create multiple layers in manufacturing. When one layer breaks down, there are other pre-built layers that can be used.<p>Not nearly as interesting as the title suggests.

Another approach to attack the holy grail of self cleaning surfaces: Damaged surface segments on self cleaning materials form a point of &#x27;dirt crystalization&#x27;. From these points, dirt starts to cover the surface.<p>This problem is addressed by Rühe&#x27;s* paper [1] with a creative &quot;shedding concept&quot;. Upon damage, water can access the water soluble glue material upon which the water repelling elements are sitting. The damaged hydrophobic element rinsed away, exposing a fresh hydrophobic element. Unfortunately, the regenerative potential is limited to the number of sacrificial hydrophobic elements.<p><pre><code> [1] 10.1021&#x2F;acs.langmuir.7b00814 </code></pre> * Disclaimer: I met Jürgen in a joint group meetings during the Macromolecular Kolloquium in Freiburg. Great to see his name again via HN.. this was such a long time ago!

Agree with previous commenters. Interesting, but I can&#x27;t wait to see materials that truly regenerate – rather than simply providing a buffer against initial damage.