Design at the Intersection of Technology and Biology | Neri Oxman | TED Talks
842,707 views ・ 2015-10-29
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00:13
Two twin domes,
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two radically opposed design cultures.
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One is made of thousands of steel parts,
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the other of a single silk thread.
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One is synthetic, the other organic.
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One is imposed on the environment,
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the other creates it.
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One is designed for nature,
the other is designed by her.
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Michelangelo said that
when he looked at raw marble,
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he saw a figure struggling to be free.
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The chisel was Michelangelo's only tool.
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But living things are not chiseled.
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They grow.
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And in our smallest units of life,
our cells, we carry all the information
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that's required for every other cell
to function and to replicate.
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Tools also have consequences.
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At least since the Industrial Revolution,
the world of design has been dominated
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by the rigors of manufacturing
and mass production.
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Assembly lines have dictated
a world made of parts,
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framing the imagination
of designers and architects
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who have been trained to think
about their objects as assemblies
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of discrete parts with distinct functions.
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But you don't find homogenous
material assemblies in nature.
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Take human skin, for example.
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Our facial skins are thin
with large pores.
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Our back skins are thicker,
with small pores.
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One acts mainly as filter,
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the other mainly as barrier,
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and yet it's the same skin:
no parts, no assemblies.
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It's a system that gradually
varies its functionality
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by varying elasticity.
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So here this is a split screen
to represent my split world view,
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the split personality of every designer
and architect operating today
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between the chisel and the gene,
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between machine and organism,
between assembly and growth,
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between Henry Ford and Charles Darwin.
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These two worldviews,
my left brain and right brain,
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analysis and synthesis, will play out
on the two screens behind me.
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My work, at its simplest level,
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is about uniting these two worldviews,
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moving away from assembly
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and closer into growth.
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You're probably asking yourselves:
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Why now?
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Why was this not possible 10
or even five years ago?
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We live in a very special time in history,
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a rare time,
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a time when the confluence of four fields
is giving designers access to tools
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we've never had access to before.
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These fields are computational design,
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allowing us to design
complex forms with simple code;
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additive manufacturing,
letting us produce parts
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by adding material
rather than carving it out;
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materials engineering, which lets us
design the behavior of materials
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in high resolution;
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and synthetic biology,
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enabling us to design new biological
functionality by editing DNA.
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And at the intersection
of these four fields,
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my team and I create.
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Please meet the minds and hands
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of my students.
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We design objects and products
and structures and tools across scales,
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from the large-scale,
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like this robotic arm
with an 80-foot diameter reach
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with a vehicular base that will
one day soon print entire buildings,
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to nanoscale graphics made entirely
of genetically engineered microorganisms
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that glow in the dark.
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Here we've reimagined the mashrabiya,
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an archetype of ancient
Arabic architecture,
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and created a screen where
every aperture is uniquely sized
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to shape the form of light and heat
moving through it.
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In our next project,
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we explore the possibility
of creating a cape and skirt --
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this was for a Paris fashion show
with Iris van Herpen --
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like a second skin
that are made of a single part,
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stiff at the contours,
flexible around the waist.
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Together with my long-term
3D printing collaborator Stratasys,
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we 3D-printed this cape and skirt
with no seams between the cells,
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and I'll show more objects like it.
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This helmet combines
stiff and soft materials
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in 20-micron resolution.
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This is the resolution of a human hair.
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It's also the resolution of a CT scanner.
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That designers have access
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to such high-resolution
analytic and synthetic tools,
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enables to design products that fit
not only the shape of our bodies,
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but also the physiological
makeup of our tissues.
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Next, we designed an acoustic chair,
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a chair that would be at once
structural, comfortable
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and would also absorb sound.
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Professor Carter, my collaborator, and I
turned to nature for inspiration,
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and by designing this irregular
surface pattern,
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it becomes sound-absorbent.
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We printed its surface
out of 44 different properties,
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varying in rigidity, opacity and color,
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corresponding to pressure points
on the human body.
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Its surface, as in nature,
varies its functionality
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not by adding another material
or another assembly,
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but by continuously and delicately
varying material property.
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But is nature ideal?
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Are there no parts in nature?
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I wasn't raised
in a religious Jewish home,
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but when I was young,
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my grandmother used to tell me
stories from the Hebrew Bible,
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and one of them stuck with me and came
to define much of what I care about.
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As she recounts:
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"On the third day of Creation,
God commands the Earth
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to grow a fruit-bearing fruit tree."
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For this first fruit tree,
there was to be no differentiation
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between trunk, branches,
leaves and fruit.
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The whole tree was a fruit.
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Instead, the land grew trees
that have bark and stems and flowers.
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The land created a world made of parts.
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I often ask myself,
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"What would design be like
if objects were made of a single part?
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Would we return to a better
state of creation?"
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So we looked for that biblical material,
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that fruit-bearing fruit tree
kind of material, and we found it.
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The second-most abundant biopolymer
on the planet is called chitin,
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and some 100 million tons of it
are produced every year
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by organisms such as shrimps,
crabs, scorpions and butterflies.
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We thought if we could tune
its properties,
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we could generate structures
that are multifunctional
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out of a single part.
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So that's what we did.
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We called Legal Seafood --
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(Laughter)
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we ordered a bunch of shrimp shells,
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we grinded them
and we produced chitosan paste.
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By varying chemical concentrations,
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we were able to achieve
a wide array of properties --
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from dark, stiff and opaque,
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to light, soft and transparent.
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In order to print the structures
in large scale,
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we built a robotically controlled
extrusion system with multiple nozzles.
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The robot would vary
material properties on the fly
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and create these 12-foot-long structures
made of a single material,
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100 percent recyclable.
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When the parts are ready,
they're left to dry
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and find a form naturally
upon contact with air.
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So why are we still
designing with plastics?
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The air bubbles that were a byproduct
of the printing process
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were used to contain
photosynthetic microorganisms
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that first appeared on our planet
3.5 billion year ago,
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as we learned yesterday.
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Together with our collaborators
at Harvard and MIT,
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we embedded bacteria
that were genetically engineered
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to rapidly capture carbon
from the atmosphere
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and convert it into sugar.
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For the first time,
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we were able to generate structures
that would seamlessly transition
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from beam to mesh,
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and if scaled even larger, to windows.
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A fruit-bearing fruit tree.
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Working with an ancient material,
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one of the first lifeforms on the planet,
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plenty of water and a little bit
of synthetic biology,
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we were able to transform a structure
made of shrimp shells
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into an architecture
that behaves like a tree.
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And here's the best part:
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for objects designed to biodegrade,
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put them in the sea,
and they will nourish marine life;
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place them in soil,
and they will help grow a tree.
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The setting for our next exploration
using the same design principles
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was the solar system.
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We looked for the possibility
of creating life-sustaining clothing
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for interplanetary voyages.
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To do that, we needed to contain bacteria
and be able to control their flow.
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So like the periodic table, we came up
with our own table of the elements:
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new lifeforms that
were computationally grown,
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additively manufactured
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and biologically augmented.
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I like to think of synthetic biology
as liquid alchemy,
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only instead of transmuting
precious metals,
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you're synthesizing new biological
functionality inside very small channels.
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It's called microfluidics.
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We 3D-printed our own channels
in order to control the flow
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of these liquid bacterial cultures.
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In our first piece of clothing,
we combined two microorganisms.
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The first is cyanobacteria.
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It lives in our oceans
and in freshwater ponds.
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And the second, E. coli, the bacterium
that inhabits the human gut.
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One converts light into sugar,
the other consumes that sugar
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and produces biofuels
useful for the built environment.
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Now, these two microorganisms
never interact in nature.
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In fact, they never met each other.
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They've been here,
engineered for the first time,
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to have a relationship
inside a piece of clothing.
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Think of it as evolution
not by natural selection,
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but evolution by design.
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In order to contain these relationships,
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we've created a single channel
that resembles the digestive tract,
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that will help flow these bacteria
and alter their function along the way.
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We then started growing
these channels on the human body,
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varying material properties
according to the desired functionality.
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Where we wanted more photosynthesis,
we would design more transparent channels.
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This wearable digestive system,
when it's stretched end to end,
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spans 60 meters.
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This is half the length
of a football field,
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and 10 times as long
as our small intestines.
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And here it is for the first time
unveiled at TED --
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our first photosynthetic wearable,
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liquid channels glowing with life
inside a wearable clothing.
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(Applause)
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Thank you.
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Mary Shelley said, "We are unfashioned
creatures, but only half made up."
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What if design could provide
that other half?
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What if we could create structures
that would augment living matter?
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What if we could create
personal microbiomes
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that would scan our skins,
repair damaged tissue
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and sustain our bodies?
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Think of this as a form of edited biology.
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This entire collection, Wanderers,
that was named after planets,
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was not to me really about fashion per se,
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but it provided an opportunity
to speculate about the future
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of our race on our planet and beyond,
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to combine scientific insight
with lots of mystery
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and to move away
from the age of the machine
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to a new age of symbiosis
between our bodies,
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the microorganisms that we inhabit,
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our products and even our buildings.
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I call this material ecology.
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To do this, we always need
to return back to nature.
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By now, you know that a 3D printer
prints material in layers.
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You also know that nature doesn't.
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It grows. It adds with sophistication.
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This silkworm cocoon, for example,
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creates a highly
sophisticated architecture,
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a home inside which to metamorphisize.
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No additive manufacturing today gets even
close to this level of sophistication.
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It does so by combining not two materials,
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but two proteins
in different concentrations.
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One acts as the structure,
the other is the glue, or the matrix,
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holding those fibers together.
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And this happens across scales.
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The silkworm first attaches itself
to the environment --
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it creates a tensile structure --
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and it then starts spinning
a compressive cocoon.
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Tension and compression,
the two forces of life,
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manifested in a single material.
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In order to better understand
how this complex process works,
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we glued a tiny earth magnet
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to the head of a silkworm,
to the spinneret.
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We placed it inside a box
with magnetic sensors,
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and that allowed us to create
this 3-dimensional point cloud
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and visualize the complex architecture
of the silkworm cocoon.
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However, when we placed
the silkworm on a flat patch,
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not inside a box,
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we realized it would spin a flat cocoon
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and it would still
healthily metamorphisize.
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So we started designing different
environments, different scaffolds,
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and we discovered that
the shape, the composition,
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the structure of the cocoon, was directly
informed by the environment.
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Silkworms are often boiled to death
inside their cocoons,
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their silk unraveled and used
in the textile industry.
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We realized that designing these templates
allowed us to give shape to raw silk
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without boiling a single cocoon.
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(Applause)
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They would healthily metamorphisize,
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and we would be able
to create these things.
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So we scaled this process up
to architectural scale.
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We had a robot spin
the template out of silk,
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and we placed it on our site.
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We knew silkworms migrated
toward darker and colder areas,
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so we used a sun path diagram
to reveal the distribution
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of light and heat on our structure.
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We then created holes, or apertures,
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that would lock in the rays
of light and heat,
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distributing those silkworms
on the structure.
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We were ready to receive the caterpillars.
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We ordered 6,500 silkworms
from an online silk farm.
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And after four weeks of feeding,
they were ready to spin with us.
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We placed them carefully
at the bottom rim of the scaffold,
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and as they spin they pupate,
they mate, they lay eggs,
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and life begins all over again --
just like us but much, much shorter.
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Bucky Fuller said that tension
is the great integrity,
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and he was right.
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As they spin biological silk
over robotically spun silk,
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they give this entire
pavilion its integrity.
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16:13
And over two to three weeks,
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16:15
6,500 silkworms spin 6,500 kilometers.
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16:19
In a curious symmetry, this is also
the length of the Silk Road.
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16:24
The moths, after they hatch,
produce 1.5 million eggs.
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This could be used for 250
additional pavilions for the future.
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So here they are, the two worldviews.
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16:36
One spins silk out of a robotic arm,
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16:40
the other fills in the gaps.
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16:44
If the final frontier of design
is to breathe life into the products
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16:47
and the buildings around us,
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to form a two-material ecology,
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16:51
then designers must unite
these two worldviews.
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16:55
Which brings us back, of course,
to the beginning.
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17:00
Here's to a new age of design,
a new age of creation,
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that takes us from
a nature-inspired design
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17:07
to a design-inspired nature,
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17:09
and that demands of us for the first time
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17:13
that we mother nature.
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17:18
Thank you.
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17:19
(Applause)
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17:26
Thank you very much. Thank you.
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17:28
(Applause)
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