Design at the Intersection of Technology and Biology | Neri Oxman | TED Talks

864,527 views ・ 2015-10-29

TED


Please double-click on the English subtitles below to play the video.

00:13
Two twin domes,
0
13037
2647
00:15
two radically opposed design cultures.
1
15708
3430
00:19
One is made of thousands of steel parts,
2
19709
3040
00:22
the other of a single silk thread.
3
22773
2776
00:26
One is synthetic, the other organic.
4
26035
2466
00:28
One is imposed on the environment,
5
28936
2277
00:31
the other creates it.
6
31237
2093
00:33
One is designed for nature, the other is designed by her.
7
33666
3634
00:38
Michelangelo said that when he looked at raw marble,
8
38032
2893
00:40
he saw a figure struggling to be free.
9
40949
2452
00:43
The chisel was Michelangelo's only tool.
10
43425
4122
00:49
But living things are not chiseled.
11
49261
2184
00:51
They grow.
12
51999
1184
00:53
And in our smallest units of life, our cells, we carry all the information
13
53999
5466
00:59
that's required for every other cell to function and to replicate.
14
59489
5368
01:06
Tools also have consequences.
15
66155
2229
01:08
At least since the Industrial Revolution, the world of design has been dominated
16
68922
4610
01:13
by the rigors of manufacturing and mass production.
17
73556
2671
01:16
Assembly lines have dictated a world made of parts,
18
76703
3272
01:19
framing the imagination of designers and architects
19
79999
2592
01:22
who have been trained to think about their objects as assemblies
20
82615
3104
01:25
of discrete parts with distinct functions.
21
85743
3374
01:30
But you don't find homogenous material assemblies in nature.
22
90165
4690
01:35
Take human skin, for example.
23
95434
2254
01:38
Our facial skins are thin with large pores.
24
98054
3568
01:41
Our back skins are thicker, with small pores.
25
101999
3083
01:45
One acts mainly as filter,
26
105559
2618
01:48
the other mainly as barrier,
27
108201
1764
01:49
and yet it's the same skin: no parts, no assemblies.
28
109989
4268
01:54
It's a system that gradually varies its functionality
29
114281
3365
01:57
by varying elasticity.
30
117670
1681
01:59
So here this is a split screen to represent my split world view,
31
119835
3942
02:03
the split personality of every designer and architect operating today
32
123801
4404
02:08
between the chisel and the gene,
33
128229
2319
02:10
between machine and organism, between assembly and growth,
34
130572
4838
02:15
between Henry Ford and Charles Darwin.
35
135434
2538
02:18
These two worldviews, my left brain and right brain,
36
138734
3002
02:21
analysis and synthesis, will play out on the two screens behind me.
37
141760
6645
02:29
My work, at its simplest level,
38
149754
2446
02:32
is about uniting these two worldviews,
39
152224
2735
02:34
moving away from assembly
40
154983
2214
02:37
and closer into growth.
41
157221
3038
02:41
You're probably asking yourselves:
42
161099
2112
02:43
Why now?
43
163235
1150
02:44
Why was this not possible 10 or even five years ago?
44
164766
3781
02:50
We live in a very special time in history,
45
170451
2128
02:52
a rare time,
46
172603
2072
02:54
a time when the confluence of four fields is giving designers access to tools
47
174699
4579
02:59
we've never had access to before.
48
179302
2250
03:02
These fields are computational design,
49
182205
2864
03:05
allowing us to design complex forms with simple code;
50
185093
5008
03:10
additive manufacturing, letting us produce parts
51
190125
4034
03:14
by adding material rather than carving it out;
52
194183
3626
03:17
materials engineering, which lets us design the behavior of materials
53
197833
3444
03:21
in high resolution;
54
201301
1717
03:23
and synthetic biology,
55
203042
1857
03:24
enabling us to design new biological functionality by editing DNA.
56
204923
4076
03:29
And at the intersection of these four fields,
57
209491
2240
03:31
my team and I create.
58
211755
1713
03:33
Please meet the minds and hands
59
213492
2405
03:35
of my students.
60
215921
1396
03:39
We design objects and products and structures and tools across scales,
61
219772
5661
03:45
from the large-scale,
62
225457
1771
03:47
like this robotic arm with an 80-foot diameter reach
63
227252
3516
03:50
with a vehicular base that will one day soon print entire buildings,
64
230792
4134
03:54
to nanoscale graphics made entirely of genetically engineered microorganisms
65
234950
4087
03:59
that glow in the dark.
66
239061
1380
04:01
Here we've reimagined the mashrabiya,
67
241261
2184
04:03
an archetype of ancient Arabic architecture,
68
243469
3373
04:06
and created a screen where every aperture is uniquely sized
69
246866
3564
04:10
to shape the form of light and heat moving through it.
70
250454
3586
04:14
In our next project,
71
254999
1716
04:16
we explore the possibility of creating a cape and skirt --
72
256739
3210
04:19
this was for a Paris fashion show with Iris van Herpen --
73
259973
3190
04:23
like a second skin that are made of a single part,
74
263187
2788
04:25
stiff at the contours, flexible around the waist.
75
265999
3050
04:29
Together with my long-term 3D printing collaborator Stratasys,
76
269589
4200
04:33
we 3D-printed this cape and skirt with no seams between the cells,
77
273813
5007
04:38
and I'll show more objects like it.
78
278844
1996
04:41
This helmet combines stiff and soft materials
79
281452
3413
04:44
in 20-micron resolution.
80
284889
3112
04:48
This is the resolution of a human hair.
81
288025
2388
04:50
It's also the resolution of a CT scanner.
82
290437
2586
04:53
That designers have access
83
293531
1541
04:55
to such high-resolution analytic and synthetic tools,
84
295096
4398
04:59
enables to design products that fit not only the shape of our bodies,
85
299518
4562
05:04
but also the physiological makeup of our tissues.
86
304104
3508
05:08
Next, we designed an acoustic chair,
87
308445
2008
05:10
a chair that would be at once structural, comfortable
88
310477
3212
05:13
and would also absorb sound.
89
313713
2324
05:16
Professor Carter, my collaborator, and I turned to nature for inspiration,
90
316529
4446
05:20
and by designing this irregular surface pattern,
91
320999
2685
05:23
it becomes sound-absorbent.
92
323708
2371
05:26
We printed its surface out of 44 different properties,
93
326659
3900
05:30
varying in rigidity, opacity and color,
94
330583
3393
05:34
corresponding to pressure points on the human body.
95
334000
3999
05:38
Its surface, as in nature, varies its functionality
96
338023
3992
05:42
not by adding another material or another assembly,
97
342039
3627
05:45
but by continuously and delicately varying material property.
98
345690
4719
05:52
But is nature ideal?
99
352496
1817
05:56
Are there no parts in nature?
100
356146
2142
06:01
I wasn't raised in a religious Jewish home,
101
361185
3271
06:04
but when I was young,
102
364480
1156
06:05
my grandmother used to tell me stories from the Hebrew Bible,
103
365660
3397
06:09
and one of them stuck with me and came to define much of what I care about.
104
369081
4005
06:13
As she recounts:
105
373110
2008
06:15
"On the third day of Creation, God commands the Earth
106
375142
2943
06:18
to grow a fruit-bearing fruit tree."
107
378109
2516
06:20
For this first fruit tree, there was to be no differentiation
108
380649
3227
06:23
between trunk, branches, leaves and fruit.
109
383900
4370
06:28
The whole tree was a fruit.
110
388294
2149
06:32
Instead, the land grew trees that have bark and stems and flowers.
111
392229
5219
06:38
The land created a world made of parts.
112
398337
3373
06:42
I often ask myself,
113
402514
1858
06:44
"What would design be like if objects were made of a single part?
114
404396
4293
06:49
Would we return to a better state of creation?"
115
409412
3437
06:54
So we looked for that biblical material,
116
414999
1955
06:56
that fruit-bearing fruit tree kind of material, and we found it.
117
416978
4653
07:03
The second-most abundant biopolymer on the planet is called chitin,
118
423494
3756
07:07
and some 100 million tons of it are produced every year
119
427274
3701
07:10
by organisms such as shrimps, crabs, scorpions and butterflies.
120
430999
3856
07:15
We thought if we could tune its properties,
121
435259
2716
07:17
we could generate structures that are multifunctional
122
437999
2628
07:20
out of a single part.
123
440651
1560
07:22
So that's what we did.
124
442235
1744
07:24
We called Legal Seafood --
125
444999
1993
07:27
(Laughter)
126
447016
1036
07:28
we ordered a bunch of shrimp shells,
127
448076
2857
07:30
we grinded them and we produced chitosan paste.
128
450957
3070
07:34
By varying chemical concentrations,
129
454583
1964
07:36
we were able to achieve a wide array of properties --
130
456571
3294
07:39
from dark, stiff and opaque,
131
459889
1777
07:41
to light, soft and transparent.
132
461690
2316
07:44
In order to print the structures in large scale,
133
464689
2940
07:47
we built a robotically controlled extrusion system with multiple nozzles.
134
467653
4427
07:52
The robot would vary material properties on the fly
135
472390
3158
07:55
and create these 12-foot-long structures made of a single material,
136
475572
5103
08:00
100 percent recyclable.
137
480699
2742
08:03
When the parts are ready, they're left to dry
138
483465
2674
08:06
and find a form naturally upon contact with air.
139
486163
3579
08:10
So why are we still designing with plastics?
140
490313
3929
08:15
The air bubbles that were a byproduct of the printing process
141
495999
3463
08:19
were used to contain photosynthetic microorganisms
142
499486
2876
08:22
that first appeared on our planet 3.5 billion year ago,
143
502386
2873
08:25
as we learned yesterday.
144
505283
1562
08:27
Together with our collaborators at Harvard and MIT,
145
507999
2587
08:30
we embedded bacteria that were genetically engineered
146
510610
2753
08:33
to rapidly capture carbon from the atmosphere
147
513387
3142
08:36
and convert it into sugar.
148
516553
2007
08:39
For the first time,
149
519449
1787
08:41
we were able to generate structures that would seamlessly transition
150
521260
3966
08:45
from beam to mesh,
151
525250
3334
08:48
and if scaled even larger, to windows.
152
528608
2395
08:52
A fruit-bearing fruit tree.
153
532019
1556
08:54
Working with an ancient material,
154
534626
2686
08:57
one of the first lifeforms on the planet,
155
537336
2639
08:59
plenty of water and a little bit of synthetic biology,
156
539999
3976
09:03
we were able to transform a structure made of shrimp shells
157
543999
3507
09:07
into an architecture that behaves like a tree.
158
547530
3567
09:11
And here's the best part:
159
551724
2301
09:14
for objects designed to biodegrade,
160
554049
1947
09:16
put them in the sea, and they will nourish marine life;
161
556020
2911
09:19
place them in soil, and they will help grow a tree.
162
559740
3826
09:24
The setting for our next exploration using the same design principles
163
564415
4017
09:28
was the solar system.
164
568456
1721
09:30
We looked for the possibility of creating life-sustaining clothing
165
570693
4282
09:34
for interplanetary voyages.
166
574999
2168
09:38
To do that, we needed to contain bacteria and be able to control their flow.
167
578707
5038
09:43
So like the periodic table, we came up with our own table of the elements:
168
583769
4560
09:48
new lifeforms that were computationally grown,
169
588353
3389
09:51
additively manufactured
170
591766
2041
09:53
and biologically augmented.
171
593831
2448
09:58
I like to think of synthetic biology as liquid alchemy,
172
598096
3525
10:01
only instead of transmuting precious metals,
173
601645
2739
10:04
you're synthesizing new biological functionality inside very small channels.
174
604408
3739
10:08
It's called microfluidics.
175
608171
2348
10:11
We 3D-printed our own channels in order to control the flow
176
611067
4175
10:15
of these liquid bacterial cultures.
177
615266
2364
10:19
In our first piece of clothing, we combined two microorganisms.
178
619432
4001
10:23
The first is cyanobacteria.
179
623457
1911
10:25
It lives in our oceans and in freshwater ponds.
180
625392
2976
10:28
And the second, E. coli, the bacterium that inhabits the human gut.
181
628392
3923
10:32
One converts light into sugar, the other consumes that sugar
182
632862
3573
10:36
and produces biofuels useful for the built environment.
183
636459
3349
10:39
Now, these two microorganisms never interact in nature.
184
639832
4487
10:44
In fact, they never met each other.
185
644343
1858
10:46
They've been here, engineered for the first time,
186
646225
3179
10:49
to have a relationship inside a piece of clothing.
187
649428
3356
10:53
Think of it as evolution not by natural selection,
188
653340
3635
10:56
but evolution by design.
189
656999
1818
10:59
In order to contain these relationships,
190
659515
2199
11:01
we've created a single channel that resembles the digestive tract,
191
661738
4105
11:05
that will help flow these bacteria and alter their function along the way.
192
665867
4502
11:10
We then started growing these channels on the human body,
193
670822
3629
11:14
varying material properties according to the desired functionality.
194
674475
3329
11:17
Where we wanted more photosynthesis, we would design more transparent channels.
195
677828
4530
11:23
This wearable digestive system, when it's stretched end to end,
196
683101
5104
11:28
spans 60 meters.
197
688229
2064
11:30
This is half the length of a football field,
198
690317
2658
11:32
and 10 times as long as our small intestines.
199
692999
3349
11:37
And here it is for the first time unveiled at TED --
200
697612
2708
11:40
our first photosynthetic wearable,
201
700344
2103
11:42
liquid channels glowing with life inside a wearable clothing.
202
702471
3620
11:46
(Applause)
203
706694
1128
11:47
Thank you.
204
707846
3049
11:51
Mary Shelley said, "We are unfashioned creatures, but only half made up."
205
711871
3976
11:55
What if design could provide that other half?
206
715871
3881
11:59
What if we could create structures that would augment living matter?
207
719776
4807
12:06
What if we could create personal microbiomes
208
726035
3433
12:09
that would scan our skins, repair damaged tissue
209
729492
3875
12:13
and sustain our bodies?
210
733391
1729
12:16
Think of this as a form of edited biology.
211
736062
2913
12:18
This entire collection, Wanderers, that was named after planets,
212
738999
3976
12:22
was not to me really about fashion per se,
213
742999
2658
12:25
but it provided an opportunity to speculate about the future
214
745681
3359
12:29
of our race on our planet and beyond,
215
749064
2622
12:31
to combine scientific insight with lots of mystery
216
751710
3731
12:35
and to move away from the age of the machine
217
755465
3321
12:38
to a new age of symbiosis between our bodies,
218
758810
3476
12:42
the microorganisms that we inhabit,
219
762310
2439
12:44
our products and even our buildings.
220
764773
1928
12:46
I call this material ecology.
221
766725
2842
12:49
To do this, we always need to return back to nature.
222
769591
4577
12:54
By now, you know that a 3D printer prints material in layers.
223
774999
3998
12:59
You also know that nature doesn't.
224
779759
1912
13:02
It grows. It adds with sophistication.
225
782182
3500
13:06
This silkworm cocoon, for example,
226
786102
2564
13:08
creates a highly sophisticated architecture,
227
788690
3320
13:12
a home inside which to metamorphisize.
228
792034
2801
13:14
No additive manufacturing today gets even close to this level of sophistication.
229
794859
5652
13:20
It does so by combining not two materials,
230
800535
3072
13:23
but two proteins in different concentrations.
231
803631
3309
13:27
One acts as the structure, the other is the glue, or the matrix,
232
807487
3996
13:31
holding those fibers together.
233
811507
2421
13:33
And this happens across scales.
234
813952
1760
13:36
The silkworm first attaches itself to the environment --
235
816717
2732
13:39
it creates a tensile structure --
236
819473
2016
13:41
and it then starts spinning a compressive cocoon.
237
821513
3097
13:44
Tension and compression, the two forces of life,
238
824999
3531
13:48
manifested in a single material.
239
828554
3054
13:53
In order to better understand how this complex process works,
240
833337
3211
13:56
we glued a tiny earth magnet
241
836572
2187
13:58
to the head of a silkworm, to the spinneret.
242
838783
2999
14:01
We placed it inside a box with magnetic sensors,
243
841806
2948
14:04
and that allowed us to create this 3-dimensional point cloud
244
844778
3087
14:07
and visualize the complex architecture of the silkworm cocoon.
245
847889
4942
14:13
However, when we placed the silkworm on a flat patch,
246
853736
3654
14:17
not inside a box,
247
857414
1738
14:19
we realized it would spin a flat cocoon
248
859176
3191
14:22
and it would still healthily metamorphisize.
249
862391
2977
14:25
So we started designing different environments, different scaffolds,
250
865781
3985
14:29
and we discovered that the shape, the composition,
251
869790
2735
14:32
the structure of the cocoon, was directly informed by the environment.
252
872549
3713
14:36
Silkworms are often boiled to death inside their cocoons,
253
876866
4353
14:41
their silk unraveled and used in the textile industry.
254
881243
3182
14:44
We realized that designing these templates allowed us to give shape to raw silk
255
884933
6459
14:51
without boiling a single cocoon.
256
891416
3070
14:54
(Applause)
257
894950
3243
14:58
They would healthily metamorphisize,
258
898217
2722
15:00
and we would be able to create these things.
259
900963
2530
15:03
So we scaled this process up to architectural scale.
260
903517
3107
15:07
We had a robot spin the template out of silk,
261
907170
3131
15:10
and we placed it on our site.
262
910325
1680
15:12
We knew silkworms migrated toward darker and colder areas,
263
912489
4884
15:17
so we used a sun path diagram to reveal the distribution
264
917397
3320
15:20
of light and heat on our structure.
265
920741
2149
15:23
We then created holes, or apertures,
266
923692
2510
15:26
that would lock in the rays of light and heat,
267
926226
3749
15:29
distributing those silkworms on the structure.
268
929999
3715
15:34
We were ready to receive the caterpillars.
269
934777
2373
15:37
We ordered 6,500 silkworms from an online silk farm.
270
937174
3719
15:42
And after four weeks of feeding, they were ready to spin with us.
271
942031
3928
15:45
We placed them carefully at the bottom rim of the scaffold,
272
945983
3532
15:49
and as they spin they pupate, they mate, they lay eggs,
273
949539
4436
15:53
and life begins all over again -- just like us but much, much shorter.
274
953999
5105
16:00
Bucky Fuller said that tension is the great integrity,
275
960300
4745
16:05
and he was right.
276
965069
1623
16:06
As they spin biological silk over robotically spun silk,
277
966716
3722
16:10
they give this entire pavilion its integrity.
278
970462
2664
16:13
And over two to three weeks,
279
973150
1850
16:15
6,500 silkworms spin 6,500 kilometers.
280
975024
4655
16:19
In a curious symmetry, this is also the length of the Silk Road.
281
979703
3673
16:24
The moths, after they hatch, produce 1.5 million eggs.
282
984837
3855
16:28
This could be used for 250 additional pavilions for the future.
283
988716
4114
16:33
So here they are, the two worldviews.
284
993639
3065
16:36
One spins silk out of a robotic arm,
285
996728
3767
16:40
the other fills in the gaps.
286
1000519
2332
16:44
If the final frontier of design is to breathe life into the products
287
1004182
3781
16:47
and the buildings around us,
288
1007987
1794
16:49
to form a two-material ecology,
289
1009805
2170
16:51
then designers must unite these two worldviews.
290
1011999
3604
16:55
Which brings us back, of course, to the beginning.
291
1015627
3777
17:00
Here's to a new age of design, a new age of creation,
292
1020121
3603
17:03
that takes us from a nature-inspired design
293
1023748
3348
17:07
to a design-inspired nature,
294
1027120
2855
17:09
and that demands of us for the first time
295
1029999
3976
17:13
that we mother nature.
296
1033999
4143
17:18
Thank you.
297
1038793
1034
17:19
(Applause)
298
1039851
6996
17:26
Thank you very much. Thank you.
299
1046871
2104
17:28
(Applause)
300
1048999
3000
About this website

This site will introduce you to YouTube videos that are useful for learning English. You will see English lessons taught by top-notch teachers from around the world. Double-click on the English subtitles displayed on each video page to play the video from there. The subtitles scroll in sync with the video playback. If you have any comments or requests, please contact us using this contact form.

https://forms.gle/WvT1wiN1qDtmnspy7