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Neri Oxman's 3D printed photosynthetic wearables shine new light.


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Aaron Pearson

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Neri Oxman’s lauded TED Talk reveals Stratasys 3D printed wearable designed to host living matter. Photo credit: Bret Hartman, courtesy of TED.

Neri Oxman’s lauded TED Talk reveals Stratasys 3D printed wearable designed to host living matter. Photo credit: Bret Hartman, courtesy of TED.

Architect, designer and long-term 3D printing collaborator Prof. Neri Oxman has revealed the world’s first 3D printed photosynthetic wearable, embedded with living matter, on the TED2015 stage in Vancouver.

Oxman unveiled Mushtari, an artwork 3D printed by Stratasys and the world’s first wearable to combine multi-material additive manufacturing and synthetic biology.


Back piece of Mushtari filled with chemiluminsecent liquid. The fluid channels in the wearable, 3D printed by Stratasys, stretch to around 58 meters and inner channel diameters range from 1 mm to 2.5 cm. Photo credit: Jonathan Williams and Paula Aguilera, courtesy of Mediated Matter.

Back piece of Mushtari filled with chemiluminsecent liquid. The fluid channels in the wearable, 3D printed by Stratasys, stretch to around 58 meters and inner channel diameters range from 1 mm to 2.5 cm. Photo credit: Jonathan Williams and Paula Aguilera, courtesy of Mediated Matter.

“This is the first time that 3D printing technology has been used to produce a photosynthetic wearable piece with hollow internal channels designed to house microorganisms,” Oxman said. “Inspired by the human gastrointestinal tract, Mushtari hosts synthetic microorganisms – a co-culture of photosynthetic cyanobacteria and E. coli bacteria – that can fluoresce bright colors in darkness and produce sugar or biofuels when exposed to the sun. Such functions will in the near future augment the wearer by scanning our skins, repairing damaged tissue and sustaining our bodies, an experiment that has never been attempted before.”

Stratasys’ unique triple-jetting 3D printing technology enabled Oxman’s team – including her researcher, Will Patrick – to create a large fluid network within Mushtari that varied in transparency from opaque to clear.


Back piece of Mushtari with illuminated channels. Stratasys’ unique 3D printing technology enabled Oxman’s team to create a large fluid network that varied color, flexibility and transparency from opaque to clear. Photo credit: Jonathan Williams and Paula Aguilera, courtesy of Mediated Matter.

Back piece of Mushtari with illuminated channels. Stratasys’ unique 3D printing technology enabled Oxman’s team to create a large fluid network that varied color, flexibility and transparency from opaque to clear. Photo credit: Jonathan Williams and Paula Aguilera, courtesy of Mediated Matter.

“This enabled varying levels of transparency and translucency to be designed into surface areas where photosynthesis was desired,” Oxman said. “Channels and pockets were implemented to enhance the flow and functionality of the cells – such mechanical and optical property gradation can only be achieved using multi-material 3D printing with high spatial resolution for manufacturing.”

Stratasys developed a new tailor-made solution for this particular piece. According to Naomi Kaempfer, Creative Director Art Fashion Design at Stratasys, “We have a fertile research collaboration with Professor Neri Oxman, one that has great reciprocal benefits as we push each other to the edges of expression and technological capability. 3D printing Mushtari is a wonderful example of how far this collaboration can bring us.


Neri Oxman and her team collaborate with Stratasys to produce the world’s first 3D printed photosynthetic wearable. Photo credit: Steven Keating, courtesy of Mediated Matter.

Neri Oxman and her team collaborate with Stratasys to produce the world’s first 3D printed photosynthetic wearable. Photo credit: Steven Keating, courtesy of Mediated Matter.

“The fluid channels in the wearable stretch to around 58 meters with an inner channel diameter ranging from 1 mm to 2.5 cm, frequently turning sharply in new directions. Clearing the support material out from such a long, narrow and complex structure to create the hollow channels for living matter presented a significant challenge. Our R&D team went beyond the boundaries of our existing technology, formulating a dedicated improved support structure to allow a smooth, effective process in support of Professor Oxman’s vision.”

Mushtari is a continuation of a piece from Oxman’s Wanderers: An Astrobiological Exploration, part of “The Sixth Element” design collection curated by Stratasys for Euromold 2014. With four pieces of Oxman’s artwork, the Wanderers series is an ongoing collaboration between Stratasys and Oxman, as well as members of the Mediated Matter research group, the Laboratory of Prof. Pamela Silver at Harvard Medical School, and Deskriptiv (Christopher Bader & Dominik Kolb).


3D printed on the Stratasys Objet500 Connex3 Color Multi-Material 3D Production System, Mushtari is filled with luminescent liquid. Photo credit: Jonathan Williams and Paula Aguilera, courtesy of Mediated Matter.

3D printed on the Stratasys Objet500 Connex3 Color Multi-Material 3D Production System, Mushtari is filled with luminescent liquid. Photo credit: Jonathan Williams and Paula Aguilera, courtesy of Mediated Matter.

The Wanderers series speculates about the possibility of voyaging beyond planet Earth to other planets. Each of the wearables in the series is designed to contain and generate life-sustaining elements. Mushtari, meaning huge or giant in Arabic, evoking the planet Jupiter, was designed as a single strand filled with living matter. An organ system for consuming and digesting biomass, absorbing nutrients and expelling waste, the 3D printed translucent tract was designed to support the flow of cyanobacteria engineered to convert sunlight into sucrose presenting the prospects of sustaining living organisms inside a wearable.

The Stratasys 3D printed piece for Oxman’s creation and TED Talk continued this idea and saw Mushtari function for the very first time as a vessel to support, control and manipulate living organisms inside a wearable device.

“In the end, it is clear that the incorporation of synthetic biology in 3D printed products for wearable microbiomes will enable the transition from designs that are inspired by Nature, to designs made with and by Nature, to, possibly designing Nature herself,” Oxman said in reference to future endeavors.

This must-see TED Talk video goes live online soon. Follow the Stratasys blog to see it!

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