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Wednesday, 08 April 2020
Raw materials & technologies, Applications, Protective & Marine coatings

Carnivorous plant inspires protective coatings

Tuesday, 14 January 2014

A tropical carnivorous plant that traps its prey inside its body with a virtually frictionless surface is inspiring a new generation of coatings capable of repelling liquids including blood, oil, honey and even ice.

Nepenthes pitchers hang from tendrils Source: Wikipedia/Dusentrieb

Nepenthes pitchers hang from tendrils Source: Wikipedia/Dusentrieb

Nature is well known for its ability to repel liquids. Lotus leaves, rice leaves, butterfly wings, mosquito compound eyes, cicada wings, red rose petals, gecko feet, desert beetles and spider silk all having the ability to remain dry. However, the pitcher plant or nepenthes, which is found in countries including Australia, Malaysia and Madagascar, has a special adaptation that creates a near frictionless surface with self-healing properties.

Pitcher plant is damage tolerant

The ability to repel liquids and contaminants has important applications to industry and everyday life. Coatings are needed to help stop the formation of bacteria on medical instruments, ice build-up on airplanes, fouling on ship hulls, anti-corrosion and the efficient transportation of products like crude oil by pipeline. The pitcher plant is different than some other nature-inspired adaptations by "locking-in” a lubricant layer onto the surface of its skin, which cannot be penetrated by another liquid and is more damage tolerant. The result is also fatal to the plant’s prey – insects and small frogs – that are unable to climb out of its smooth, deep, tubular-shaped body.

Researchers mimic the inner skin design

A team at Harvard University has now been able to mimic the pitcher plant’s inner skin design to produce a transparent coating capable of being economically applied to almost any object – large or small. The multi-stage coating process involves attaching a thin, but rough layer of porous silica particles that are used to lock in a lubricating layer onto the surface to be protected. Its diverse applications could include acting as an anti-graffiti coating on walls or on medical implants to aid blood flow.

Development reaches finals of this year’s IChem Awards

This latest development in coating technology reached the finals of this year’s Institution of Chemical Engineers(IChemE) Awards in the UK, which recognizes excellence and innovation in the chemical and process industries worldwide. IChemE’s Chief Executive Dr. David Brown said, "By mimicking the pitcher plant’s skin structure, Harvard University’s new coating self-heals almost instantly, even if scraped with a knife or blade. It is capable of operating in extreme temperatures and high pressure, and can be applied to surfaces ranging from metals and semiconductors to paper and cotton fabric.”

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