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Tiny Technologies Club

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Title: Tiny Technologies Club

1
Tiny TechnologiesClub

Club Goals
Planned Events and Activities
Club Organization
Overview of MIT Tiny Tech Research

v.021010
http//web.mit.edu/tinytech/
2
Goals

Education -- Advance understanding of emerging
micro-through-nanoscale Tiny Technologies
Networking -- To build links between interested
science, engineering, and business communities at
beyond the Institute
Entrepreneurship To accelerate new venture
creation technology commercialization

3
Events Activities

Special Events
VCPI Panel
50K Teambuilding
Facilities Visits / Lab Tours
Corporate e.g. Intellisense
MIT / Harvard Labs -- 11/5 Center for
BioMaterials
Educational Overview Talks
Sloan Lunch Talks
NanoStructures Technology Talks
MIT Visiting science engineering faculty

4
Organization

Event-Focused Teams
E.g. Speaker Series
E.g. Labtours
Champions each spearhead initiatives
A Few Critical Functional Roles
PR Marketing
Fundraising Sponsorship

5
Contacts

Sloan Speakers Series Luke Burns lburns_at_mit.edu
NanoStructures Series Jose Pacheco
jpacheco_at_mit.edu
Labtours Tienko Rasker tienkor_at_mit.edu
TinyTech Ventures Cross-Campus Connections
Joost Bonsen jpbonsen_at_mit.edu
Fundraising Ellen Brockley brockley_at_mit.edu

6
Tiny Technologies _at_ MIT

The Speculative Possibilities
Labs Researchers at MIT
The Money
Business Implications
Further Sources

7
Tiny ?

Micro through Nano in size / length scale
MEMS, NEMS, PEMS, Molectronics, Spintronics,
Photonics, optoelectronics
Nano tubes, wires, crystals, balls, logic,
rods, gears, engines
Molecular Engineering, Biological Engineering

http//cjmems.seas.ucla.edu/
http//www.foresight.org/
8
Feynmans Vision
Theres Plenty of Room at the Bottom!
http//www.zyvex.com/nanotech/feynman.html
Dec 1959 Talk at APS / CalTech
http//www.photosynthesis.com/RICHARD_F.html
9
Drexlers Engines of Creation

http//www.foresight.org/EOC/

1985 Book while at MIT Dismissed often as Pure
SF
10
Drawing Inspiration More from Biology

Ribosomes
Flagellar Motors
Muscles

http//www.rae.org/revev6.html
http//www.rcsb.org/pdb/molecules/pdb10_1.html
http//www.kapili.com/f/art/filament1.gif
http//www2.physics.ox.ac.uk/biophysics/Intro.html
http//www.ai.mit.edu/people/tk/ce/flagella-s.gif
http//gened.emc.maricopa.edu/bio/bio181/BIOBK/Bio
BookAnimalTS.html
11
Dimensions in Silicon and in Biology
red blood cell 5 ?m (SEM)
diatom 30 ?m
DNA proteins nm
Simple molecules lt1nm
bacteria 1 ?m
SOI transistor width 0.12?m
semiconductor nanocrystal (CdSe) 5nm
Circuit design Copper wiring width 0.2?m
Nanometer memory element (Lieber) 1012 bits/cm2
(1Tbit/cm2)
IBM PowerPC 750TM Microprocessor 7.56mm8.799mm 6.
35106 transistors
Source Molecular Machines (Jacobson) Group
12
Research _at_ MIT

Research Centers
Unifying Projects
Faculty Principal Investigators

13
(No Transcript)
14
Tiny Research Centers

MTL
MPC
CBE
SNL
CBA
ISN
several others

15
Microsystems Technology Labs
http//www-mtl.mit.edu/mtlhome/

MEMS
CAD
Materials
Fabrication

Schmidt
16
MicroTurbine Project

http//www.economist.com/
17
ActiveMaterialStructuresLab

Source
http//amsl.mit.edu/
research/projects.gif

18
Materials Processing Center
http//web.mit.edu/mpc/www/

Advanced materials
Processes
Properties
Fabrication

Kimmerling
19
Center for Biomedical Engineering
http//web.mit.edu/cbe/www/

Molecular Engineering
Cell Tissue Engineering
Physiological Systems Engineering

Grodzinsky
20
Space Nanotechnology Lab
http//snl.mit.edu/

Space Imaging
High-Performance

Schattenburg
21
http//cba.mit.edu/
from atomic nuclei to global networks
Nanofab, Biofab, Macrofab
Gershenfeld
http//cba.mit.edu/docs/01.04.cbaproposal.pdf
22
Institute for Soldier Nanotechnology
What Might the Future Soldier Wear?

Protective Suits
Human Augmentation

http//www.defenselink.mil/news/Jun2001/200105153a
.jpg
Thomas
It looks a lot like Science Fiction! -- MIT
Student Comic Book Fan
23
Tiny Faculty
(a Sampling)

Slocum
Hunter
Subresh
Ortiz
Jacobson
Manalis
Ippen

Smith
Knight
Sasisekharan
Endy
Hammond
Lauffenberger
many more

24
Precision Engineering
http//pergatory.mit.edu/
Flextesters
Slocum Group
http//www-me.mit.edu/people/personal/slocum.htm
25
Bioinstrumentation / Nanorobotics
Hunter Group
http//biorobotics.mit.edu/
26
Cellular Solids Research
Gibson Group
http//web.mit.edu/dmse/csg/Research.htm
27
NanoMechanical Testing
http//web.mit.edu/nanolab/
Subresh Group
http//web.mit.edu/newsoffice/nr/2002/nanolab.html

28
Nanomechanics
Ortiz Group
http//web.mit.edu/cortiz/www/
29
Molecular Machinery
RF Biology
Jacobson Group
Printed Electronics
http//www.media.mit.edu/molecular/
30
Nanoscale Sensing / Silicon Biology
Manalis Group
http//www.media.mit.edu/nanoscale/
31
Molecular Self-Assembly
http//web.mit.edu/edgerton/felice/
Zhang Group
http//web.mit.edu/lms/www/index.shtml
32
Functional Glycomics
Sasisekharan Group
http//functionalglycomics.mit.edu/cgi-bin/functio
nal_glycomics/homepage.cgi
http//web.mit.edu/tox/sasisekharan/
33
Lithographed Nanostructures
Smith Group
http//nanoweb.mit.edu/
http//rleweb.mit.edu/rlestaff/p-hsmith.htm
34
Femtosecond Optics
pulses sufficiently short duration to capture
the motion of particles in the atomic and
subatomic regime
http//rleweb.mit.edu/Publications/webfeatures/Ipp
en_Killian.htm
Ippen Group
http//rleweb.mit.edu/Publications/currents/cur11-
2/11-2optics.htm
http//web.mit.edu/mphotonics/www/index.shtml
35
Microbial Engineering / Cellular Robotics /
Synthetic Biology
Knight Group
http//www.ai.mit.edu/people/tk/ce/microbial-engin
eering.html
36
Systems Biology
Endy Lab
http//web.mit.edu/biology/www/facultyareas/facres
earch/endy.shtml
37
MacroMolecular Synthesis
Hammond Group
http//web.mit.edu/hammond/lab/index.html
38
Biological Engineering / Bioengineering
Lauffenberger
http//web.mit.edu/beh/whatisbeh.htm
39
TinyTech, Big Bills

Billions in research
NNI 600M in 2002, vs 420M in 2001
http//www.infocastinc.com/Nanotech/home.htm
http//nano.gov/
http//nano.gov/2003budget.html
Millions in VC
Polaris, DFJ
Corporate Venturing
Still early days

40
Tiny Business Implications

Profitable Product Lines in MEMS
Startups in Nano

41
Successful MEMS Products

TIs Digital Mirror Device
ADIs Accelerometer

42
TIs Digital Mirror Device
http//www.vxm.com/TI4.jpg
43
ADIs Crash Bag Accelerometer
http//www.citizen.org/fireweb/airbag.jpg
http//www.sandia.gov/mems/micromachine/analog_snl
.html
44
Selected MEMS Startups

Iridigm
MicroCHIPS
E-Ink
Flexics
Memgen
Plastilogic
Rolltronics

45
Selected Nano Startups

OmniGuide
SurfaceLogix
Nanosys
EngeneOS
Calmec
Molecular Electronics
Zyvex
Nanopto
Nanotechtonics

46
Big Business Investments

Xerox e.g. Eink competitor
IBM deep investments
Big Pharma
Medical Devices e.g. JJ Medtronics
HP spinoff Agilent Nano LabChip
Plus recent Molecular Electronics work

47
Dangers of Over-Hype

Like AI in 80s
Some things are fundamentally hard
Progress is rather bursty

48
MIT Sources
MITs David Ward has a Nanotech pointer site,
very good http//web.mit.edu/dwward/www/nanotechn
ology/nanotechnology.htm The MIT Alum
Association openDOOR February edition was on Tiny
Technologies, very nice, very comprehensive http
//alumweb.mit.edu/opendoor/200202/ MITs
Technology Review does a stellar job of covering
ever smaller-scale Engineering http//www.techrev
iew.com/articles/nannan.asp
49
Commercial Sources