Mycelium Ink

A Fungus-Based Ink for 3D Printing.

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Properties

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Soft and resilient

3D-printed Mycelium Ink creates a smooth, flexible, yet resilient coating that resembles skin or leather.

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Repairs itself

Much like our skin, mycelium has the exceptional capability of repairing itself when damaged. Unlike human skin, though, it needs a little more help – the impaired area must be injected with more living mycelium, acting like a growing glue that seamlessly binds the severed parts back together.

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A fresh cut into a 3D-printed mycelium sample.

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After a while, the surface starts to grow together.

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The growing mycelium fills the gap and creates a strong connection.

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Waterproof

Mycelium Ink is exceptionally waterproof.

See how a robotic arm and robotic ball can safely work in water, covered with mycelium hydrogel like a living glove!

Mycelium repels the water effortlessly.

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Biodegradable

We are looking at a material much closer to us and our bodies than plastic, concrete, or any other synthetic material. It’s alive! It is a living, active material that will do everything to remain so. When it finally dies, it’s doing its environment one final kindness: it returns to nature. It is broken down by various microorganisms, including bacteria and other fungi, in a natural recycling process.

Applications

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Robotic skin

An exciting and promising example of the use of Mycelium Ink is robotic skin. As we’ve seen, it can serve as a living glove. Just about any automated structure can benefit from a skin of this soft and resilient material. Where else can we take advantage of this incredible living material?

Robotic skin made from Mycelium Ink.

A 3D-printed mycelium skin for a robotic ball.

A skin for a robotic arm printed with Mycelium Ink

Composition

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Ganoderma Lucidum

The 3D-printable Mycelium Ink is made of a hydrogel – a gel formed from a polymer that binds water – infused with the fungal species Ganoderma Lucidum to initiate its growth and integrate the fungal properties into the ink.

Ganoderma Lucidum

Photo © Marjan Kustera CC BY-NC-ND 2.0 Deed

Ganoderma Lucidum in the wild.

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Hyphae

Mycelium is a system of many fine fungal threads called hyphae, which spread out like tiny branches. These hyphae grow and fuse to form mycelium – an extensive network of interconnected cells that absorb water and nutrients from their environment, enabling growth, adaptation, self-cleansing and -repair. Mycelium is a little hero!

Interconnected branches of hyphae.

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Interactive mycelium growth
Here’s what mycelium looks like in a perfect living environment, which is moist, dark, and rich in food. With all its needs met, it has only one goal: limitless growth. Click on the screen to create new spores that start its growth.
Interactive simulation © Mario von Rickenbach

Fabrication

In the right conditions, mycelium grows easily, but how do you get from a loose fungal network to ink for 3d printing? A recipe:

Feedback

Fergal Coulter

3d printing engineer of Mycelium Ink

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