Title: Tiny Technologies Club
1Tiny TechnologiesClub
- Club Goals
- Planned Events and Activities
- Club Organization
- Overview of MIT Tiny Tech Research
v.021010
http//web.mit.edu/tinytech/
2Goals
- 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
3Events 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
4Organization
- Event-Focused Teams
- E.g. Speaker Series
- E.g. Labtours
- Champions each spearhead initiatives
- A Few Critical Functional Roles
- PR Marketing
- Fundraising Sponsorship
5Contacts
- 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
6Tiny Technologies _at_ MIT
- The Speculative Possibilities
- Labs Researchers at MIT
- The Money
- Business Implications
- Further Sources
7Tiny ?
- 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/
8Feynmans 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
9Drexlers Engines of Creation
- http//www.foresight.org/EOC/
1985 Book while at MIT Dismissed often as Pure
SF
10Drawing 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
11Dimensions 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
12Research _at_ MIT
- Research Centers
- Unifying Projects
- Faculty Principal Investigators
13(No Transcript)
14Tiny Research Centers
- MTL
- MPC
- CBE
- SNL
- CBA
- ISN
- several others
15Microsystems Technology Labs
http//www-mtl.mit.edu/mtlhome/
- MEMS
- CAD
- Materials
- Fabrication
Schmidt
16MicroTurbine Project
http//www.economist.com/
17ActiveMaterialStructuresLab
- Source
- http//amsl.mit.edu/
- research/projects.gif
18Materials Processing Center
http//web.mit.edu/mpc/www/
- Advanced materials
- Processes
- Properties
- Fabrication
Kimmerling
19Center for Biomedical Engineering
http//web.mit.edu/cbe/www/
- Molecular Engineering
- Cell Tissue Engineering
- Physiological Systems Engineering
Grodzinsky
20Space Nanotechnology Lab
http//snl.mit.edu/
- Space Imaging
- High-Performance
Schattenburg
21http//cba.mit.edu/
from atomic nuclei to global networks
Nanofab, Biofab, Macrofab
Gershenfeld
http//cba.mit.edu/docs/01.04.cbaproposal.pdf
22Institute 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
23Tiny Faculty
(a Sampling)
- Slocum
- Hunter
- Subresh
- Ortiz
- Jacobson
- Manalis
- Ippen
- Smith
- Knight
- Sasisekharan
- Endy
- Hammond
- Lauffenberger
- many more
24Precision Engineering
http//pergatory.mit.edu/
Flextesters
Slocum Group
http//www-me.mit.edu/people/personal/slocum.htm
25Bioinstrumentation / Nanorobotics
Hunter Group
http//biorobotics.mit.edu/
26Cellular Solids Research
Gibson Group
http//web.mit.edu/dmse/csg/Research.htm
27NanoMechanical Testing
http//web.mit.edu/nanolab/
Subresh Group
http//web.mit.edu/newsoffice/nr/2002/nanolab.html
28Nanomechanics
Ortiz Group
http//web.mit.edu/cortiz/www/
29Molecular Machinery
RF Biology
Jacobson Group
Printed Electronics
http//www.media.mit.edu/molecular/
30Nanoscale Sensing / Silicon Biology
Manalis Group
http//www.media.mit.edu/nanoscale/
31Molecular Self-Assembly
http//web.mit.edu/edgerton/felice/
Zhang Group
http//web.mit.edu/lms/www/index.shtml
32Functional Glycomics
Sasisekharan Group
http//functionalglycomics.mit.edu/cgi-bin/functio
nal_glycomics/homepage.cgi
http//web.mit.edu/tox/sasisekharan/
33Lithographed Nanostructures
Smith Group
http//nanoweb.mit.edu/
http//rleweb.mit.edu/rlestaff/p-hsmith.htm
34Femtosecond 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
35Microbial Engineering / Cellular Robotics /
Synthetic Biology
Knight Group
http//www.ai.mit.edu/people/tk/ce/microbial-engin
eering.html
36Systems Biology
Endy Lab
http//web.mit.edu/biology/www/facultyareas/facres
earch/endy.shtml
37MacroMolecular Synthesis
Hammond Group
http//web.mit.edu/hammond/lab/index.html
38Biological Engineering / Bioengineering
Lauffenberger
http//web.mit.edu/beh/whatisbeh.htm
39TinyTech, 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
40Tiny Business Implications
- Profitable Product Lines in MEMS
- Startups in Nano
41Successful MEMS Products
- TIs Digital Mirror Device
- ADIs Accelerometer
42TIs Digital Mirror Device
http//www.vxm.com/TI4.jpg
43ADIs Crash Bag Accelerometer
http//www.citizen.org/fireweb/airbag.jpg
http//www.sandia.gov/mems/micromachine/analog_snl
.html
44Selected MEMS Startups
- Iridigm
- MicroCHIPS
- E-Ink
- Flexics
- Memgen
- Plastilogic
- Rolltronics
45Selected Nano Startups
- OmniGuide
- SurfaceLogix
- Nanosys
- EngeneOS
- Calmec
- Molecular Electronics
- Zyvex
- Nanopto
- Nanotechtonics
46Big 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
47Dangers of Over-Hype
- Like AI in 80s
- Some things are fundamentally hard
- Progress is rather bursty
48MIT 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
49Commercial Sources
- Nanotech Planet
- http//www.nanotech-planet.com/
- Zyvex has a comprehensive Nano site
- http//www.zyvex.com/nano/
- ACRS NanoTech
- http//cr.org/
50Other Sources
- Foresight Institute
- http//www.foresight.org/
- Nanotech Opportunity Report
- http//www.foresight.org/NanoRev/NOR.html
- Sandias MEMS movies!
- http//www.sandia.gov/mems/micromachine/movies.htm
l - NanoSIG.org
- and many more. See Google!
51Contacts
- 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
http//web.mit.edu/tinytech/