Post on 11-Jan-2016
Microtechnology Innovation Team
Nanotechnology:Nanotechnology:Past - Present -FuturePast - Present -Future
Juergen Ilgner, Stephan Mietke, Thomas Köhler, Matthias WernerMicrotechnology Innovation Team, Deutsche Bank AG
London, March 19th 2002
Microtechnology Innovation Team
OutlineOutline
Market Potential and TrendsMarket Potential and Trends
Current Applications - Chances and Current Applications - Chances and ChallengesChallenges
Investment Opportunities in the NanoworldInvestment Opportunities in the Nanoworld
ConclusionConclusion
Microtechnology Innovation Team
NanotechnologyNanotechnology is ... is ...
“... the direct control of materials and devices on a molecular
and atomic scale, including fabrication of functional nano-
structures with engineered properties, ...“ R. W. Siegel,
1998
Synthesis ofnanoparticles
Synthesis ofnanoparticles
Processing ofnanoparticles
Processing ofnanoparticles
Self assembly techniques
Self assembly techniques
Replicationtechniques
Replicationtechniques
Creation of chemicaland biological templates
Creation of chemicaland biological templates
Nanoengineeredsensors and acuators
Nanoengineeredsensors and acuators Surface
modification
Surface modification
Sintering of nanostructuredmetallic alloys
Sintering of nanostructuredmetallic alloys
Ultrathinfilms
Ultrathinfilms
Use of quantum effects
Use of quantum effects
Nanostructures:< 100 nm
Microtechnology Innovation Team
Developmentof the Traditional Scientific Fields
Na
no
Mic
roM
ac
ro
0,1 nm
0,1 µm
0,1 mm
1960 1990 2000 2020
Biosensoric
Molecular electronics
Neuro technology
Molecular medicine
Bio memory
CHEMISTRYCHEMISTRY
BIOLOGYBIOLOGY
PHYSICSPHYSICS
System generation
Complexity generation
Functionizing
Miniaturizing
Complex-chemistry
Supra-molecular chemistry
Cell biology
Functional molecule desgin
Integrated use of biological principles
physical laws chemical properties
Coupling ofMicro- and Nanoworld Interdisziplinary uses
Micromechanics/Electronics
Microelectronics
Quantum effect use
Source: PTB/BMBF, 2001
Microtechnology Innovation Team
Market Potential and TrendsMarket Potential and Trends
Microtechnology Innovation Team
Range of Possible Future DevelopmentsRange of Possible Future Developments
2005 2010 2015
- Investments- Breakthroughs in fabrication methods
Keyenabling factors:
Key barriers:- Cost- Social + ethical acceptance
High-growth developments e.g.:Self-assembly methodsNanotubes Molecular manufacturing
Low-growth developments:Technology evolution Improvement of existing methods:smaller, faster and cheaper
High-growth vector
Low-growth vector
Microtechnology Innovation Team
Time to NanotechnologyTime to Nanotechnology(estimated for selected products)(estimated for selected products)
Magnetic Fluids
Market size
Year1960 1970 1980 1990 2000 2010 2020 2030
GMR
OLEDs /FE-Displays
Nanoelectronics(min. feature size < 100 nm)
Electrical ConductingGlues/Coatings
Polymer Electronics
SPMs
Small
Medium
Large
Mass market
SPMs
Nanopowder / drug delivery
Source: Microtechnology Innovation Team, Deutsche Bank AG
Microtechnology Innovation Team
Nanotools
Thematic Fields of NanotechnologyThematic Fields of Nanotechnology
Nanomaterials
Other
Electronics
Nanodevices
NanobiotechPharmaceuticalsBiodevicesOther
Nanoparticles / NanotubesUltrathin + Nanostructured FilmsNanocompositesOther
Magnetic SensorsPhotonicsOther
Analytical InstrumentsEquipmentOther
Microtechnology Innovation Team
Nanotools
Nanomaterials
Electronics
Nanodevices
Nanobiotech
Nanotechnology Market SegmentationNanotechnology Market Segmentation
Microtechnology Innovation Team
Trends in Nanobiotechnology
Nanobiotechnology
DNA-chip Lab-on-a-chip Proteinchip
Microtechnology Innovation Team
Applications of Nanotechnology - Applications of Nanotechnology - Chances and ChallengesChances and Challenges
Microtechnology Innovation Team
Example: AdvalyticsExample: AdvalyticsNano-Lab-on-a-Chip DevicesNano-Lab-on-a-Chip Devices
Application fields: biology, chemistry, diagnostics ...
Liquid handling frommilliliters down tofemtoliters (12 ordersof magnitude!).
Liquids can be moved,mixed, brought toreaction and analyzed.
The pumping unit, hasno moving parts and canbe controlled electrically.
Microtechnology Innovation Team
Example: AdvalyticsExample: AdvalyticsNano-Lab-on-a-Chip DevicesNano-Lab-on-a-Chip Devices
Application fields: biology, chemistry, diagnostics ...
Liquid handling frommilliliters down tofemtoliters (12 ordersof magnitude!).
Liquids can be moved,mixed, brought toreaction and analyzed.
The pumping unit, hasno moving parts and canbe controlled electrically.
Microtechnology Innovation Team
Example: NanoPowders IndustriesExample: NanoPowders Industries
Economical processes for metallic particles from 20 nm to 5 µm (e.g. salt decomposition process)
Applications areas:
NanoPowders Industries
1 µm1 µm
SilverSilver
100 nm100 nm
Silver-CopperSilver-Copper
Catalysts and Fuel Cells (Bio-)Medical applications Fillers for conductive coatings Electronics
Microtechnology Innovation Team
Example: Rosseter Holdings Ltd.
Large-volume production of single-wall nanotubes (SWNTs), multi-wall nanotubes (MWNTs), single-wall nanohorns (SWNHs), and other nanostructured materials
Application fields: Energy Storage/Batteries, Advanced Composites, Smart Materials/Textiles, Electromagnetic Shielding, Electronics, Environment, Aeronautics & Space Exploration, Life Sciences, and others...
Microtechnology Innovation Team
Rosseter Holdings Ltd.Rosseter Holdings Ltd.Time-to-Market Time-to-Market
timeshort-term
Energy
Electronics
Environmental
Electronics
Life Science
medium-term long-term
lithium ion batteries
source: Rosseter Holdings Ltd.
flat panel displays
photovoltaic cells
nanochips
intracellular sensors
Microtechnology Innovation Team
World Market Carbon Nanotubes
0
1000
2000
3000
4000
5000
6000
7000
8000
2002 2003 2004 2005 2006
source: BCC, 2000
mio
US
D
Microtechnology Innovation Team
Investment Opportunities in the Investment Opportunities in the NanoworldNanoworld
Microtechnology Innovation Team
Foundation of Nanotech Companies
• The number of start-up companies in the nanotech sector has increased significantly since 1990.
• The U.S. play a dominant role in the foundation of nanotech companies.
• In Europe major activities have taken place in Germany, the United Kingdom and Switzerland.
• Israel has shown promising R&D activities in the nanotech sector with a high potential of start-up companies.
Microtechnology Innovation Team
Financing Nanotechnology Companies
Private Equity
Profound knowledge of
investors isessential.
Overexpectationsmust be
prevented.
Medium- to long term
opportunitiesfor return on
capital.
Near-termopportunitesalready exist.
Microtechnology Innovation Team
ConclusionConclusion
Being an enabling technology the nanoworld will have an inpact on many industrial sectors.
Nanotechnology is in a position to produce a „new hype“ in the financial community.
However, profound knowledge in the financial community is essential to understand the chances and the challenges of Nantechnology.
Strong interaction betweenall partners is requested!