WWW.BIOMED.DREXEL.EDU/ ResearchPortfolio/ School of Biomedical Engineering, Science & Health Systems V 1.0 SD [020327] BIOMEDICAL NANOTECHNOLOGY RESEARCH Drexel University Philadelphia, PA WWW.BIOMED.DREXEL.EDU Nanotechnology Institute
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School of Biomedical Engineering, Science & Health Systems
V 1.0 SD [020327]
BIOMEDICAL NANOTECHNOLOGY RESEARCH
Drexel University
Philadelphia, PA
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Nanotechnology Institute
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School of Biomedical Engineering, Science & Health Systems
V 1.0 SD [020327]
BIOMEDICAL NANOTECHNOLOGY RESEARCH
Vision
The Nanotechnology Institute will be the nucleating force and catalyst to transform the Delaware Valley
into the
NANOTECH VALLEY
The Institute will unify corporate and academic partners to conduct nanotechnology research and development to produce high commercial returns.
Stanford Research Institute Silicon Valley
Nanotechnology Institute Nanotech Valley
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
How the Nanotech Valley Will Be Built
Swift commercialization
Research & Development on critical technologies.
Enterprise creation
New educational programs impacting K-12, community colleges, and universities.
Partnerships – business, academia, non-profit organizations, and government.
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
Nanotechnology Institute: Distinguishing Features
GOAL: Nanotechnology-based regional economic development.
• Nanotechnology: Once-in-a-generation opportunity for large returns on investment.
Example: Giant magnetoresistance (GMR)-based computer hard disks.
Strategic university/corporate R&D programs target critical enabling, dual-use nano-biotechnologies with:
• Direct importance to DOD.• Major commercial market potential.
Priority of ONR: Deploy regional assets for DOD program. Addresses all necessary components of regional success.
• Commercialization, education & workforce, R&D, and information resources.
Leverages life sciences and physical sciences. Brings together leading device engineers and world-class
scientists.
Explosion in Computer Hard Disk Storage
Science: 1996
Market: multi-billion $
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
Nanotechnology Institute Commitments
Board composed of corporate, venture capitalist, non-profit, government, and university leaders.
$15.8 million from Commonwealth of Pennsylvania.• $10.5M – Nanotechnology R&D, outreach, partnering.• $300k – Education and workforce.• $5M – NSF and NSEC support.
New Jersey – Commitment for R&D support; discussions with the States of Delaware and Maryland.
Memorandums of Understanding (MOU) with United Kingdom Nanotech Institute; Nanotubulite Institute of Japan; Nanotech Centers at Polytech Institute of Milan and University of Lecce, Italy.
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
Partners Commonwealth of Pennsylvania
• Nanotechnology Greenhouse
Corporate / Venture Capital• Centocor, Cephalon, Merck, FMC, GlaxoSmithKline,
TL Ventures, SR One, and Safeguard Scientifics.
Universities / Colleges• Penn, Drexel, Temple, Widener, and Villanova Universities; Haverford,
Bryn Mawr, and Swarthmore Colleges.
Medical Schools• Penn, Thomas Jefferson, Hahnemann, Temple, and Fox Chase
Medical Schools.
Community Colleges• Delaware, Philadelphia, Bucks County, and Montgomery County
Community Colleges.
Non-Profit Organizations• BFTP-SEP, GPF, GPCC, and Pennsylvania Biotech Association.
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
Institutions• Drexel, Penn, Rutgers, Delaware, College Park Maryland,
Princeton, Penn State, Temple, Widener, Haverford, Bryn Mawr, Thomas Jefferson, and MCP Hahnemann.
Distinguished / Productive Faculty• Nobel Prize, Humboldt, Packard, PYI/Career, and Whittaker
Fellowships.• National Academies and Society Fellows.• NIH, NSF, DOD, DOE, and NASA funding.• 1 of 17 DURINTs, 2 of 24 NSECs, MRSEC, and more than 10 NIRTs.• Over 100 patents and several corporate startups.
Nanotech Institute Researchers (Web-enabled database available)
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
Force Protection: environmental intelligence and predictions that improve detection and tracking capability in a dynamically changing environment; Real-time alerts: location, identity, and capability assessment.• Non-contiguous, foreign battlefield. Minimizing environmental risks due
to disease, weather, and sophisticated terrorism. An adaptive, integrated, re-configurable, distributed network of chemical and
biological sensors to monitor the physiological status of personnel in combat or exposed to chemical/biological agents or direct physical attack; ultra-small Global Positioning System (GPS), with low cost, low weight, low heat, and low power.
Nanotech Institute Support for Navy MissionDeploying Intellectual Assets for DOD
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
Force Protection: environmental intelligence and predictions that improve detection and tracking capability in a dynamically changing environment; Real-time alerts: location, identify, and capability assessment.
• Non-contiguous, foreign battlefield. Minimizing environmental risks resulting from disease, weather, and sophisticated terrorism.
An adaptive, integrated, re-configurable, distributed network of chemical and biological sensors to monitor the physiological status of personnel in combat or exposed to chemical/biological agents or direct physical attack; ultra-small Global Positioning System (GPS), with low cost, low weight, low heat, and low power.
Mine and unexploded ordinance detection. Inexpensive nano-chemical sensors deployed in massive numbers in the field of
operation (land/water); low cost, low weight, and low power.
Paints and Coatings: anticorrosion / reduction of radar cross-section. Nanopowders: Control size and chemistry; absorption of microwaves.
Drug Delivery and Encapsulation; Protein Nanoelectronics; Nanotube-based Devices; Nano-biosensors; Tissue Engineering, Functional Scaffolds and Membranes.
Nanotech Institute Support for Navy MissionDeploying Intellectual Assets for DOD
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
Timing is Critical to Attaining Leadership
– Silicon Age Centers
– Nanotechnology Institute / Nanotech Valley
– Future Nanotechnology Competitors
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
Apply Nanotechnology Institute expertise to the development of dual-use systems for chemical-biological weapon defense and medical applications.• Nanotube and nanofiber chemical biosensors and sub-cellular
manipulators and probes.• Hydrogel / polymersome / liposome complex biosensors in biological
warfare defense and drug delivery.• Signal generation and transduction in bio-electro-optical hybrid devices
for chemical-biological warfare defense and in-vivo sensors.• Application of optical fiber-based nanotechnology for detection of
biological species and for single-cell evaluation. • Autonomous nano-robotic systems with optical, electronic, and force
feedback for chemical-biological warfare defense.
Application of Nanotechnology Institute Expertise
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
Leverage existing regional strengths in biotechnology.
Provide an R&D focal point.
Implement outreach programs to high school and community
college students and teachers.
Provide intellectual resources to regional companies during commercialization.
Nanotechnology Institute Philosophy
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
The ability to manipulate and control materials at the level of atoms and molecules to design and deliver new functionality.
Economic Driver of the 21st Century.• Non-Federal Government Report: September 1999.
"Nanotechnology’s impact on health, wealth and security of the world’s people is expected to be at least as great as the combined influences in this century of antibiotics, the integrated circuit, and human-made polymers."
The region within the country that leads in nanotechnology will become the heart of the 21st century economy.
What is Nanotechnology?
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
We can image materials at the necessary resolution.
We can manipulate materials using fine probes and fields.
Understanding of the assembly processes of atoms into molecules and materials is sufficiently advanced.
Biochemical mechanisms are approaching our ability to understand, influence, and control.
The above factors combine to place us at a "tipping point."
Why Now for Nanotechnology?
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
Technological Control Advances with Detection Capability
1600 1700 1800 1900 2000
1000
1
1000000History of Usable Magnification
Optical Microscope: 1660 – 1800. 10-300 times resolution = 2 mm. First glimpse of plant structure, protozoa, capillaries – water purification, pasteurization, rudimentary understanding of the origin of crop pests, and elementary genetics.
Today: electron microscopes, scanned probe microscopes. 30,000,000 times resolution = 0.0001 mm = 0.1nm. Atoms and molecules, assembled structures and devices, and bio-molecular mechanisms.
Yesterday: early electron microscopes. 100,000 times resolution = 0.01 mm. Deformation and fracture mechanisms, aerospace age, integrated circuits.
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
Example: Supra-molecular Assemblies
D.E. Luzzi, University of Pennsylvania
4x1013 bits/cm2 1.6x106 10242 x 24-bit images/cm2
Vastly Higher Storage Densities
Cell
Advanced Drug Delivery On-demand Anti-toxin Minimize Side Effects
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
A. Fertala , Hahnemann University, F.K. Ko, Drexel University, Alan MacDiarmid, University of Pennsylvania
Nanofibers provide excellent sites for cell growth. Enormous surface area can be functionalized for toxin removal, sensor applications.
Example: High Surface Area NanofibersTissue Engineering and Chemical / Biological Weapon Remediation
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
Example: Naturally-derived Functional Molecules
L.S. Dutton, University of Pennsylvania
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School of Biomedical Engineering, Science & Health Systems
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BIOMEDICAL NANOTECHNOLOGY RESEARCH
Academic research leaders, corporate scientists, medical doctors partnering on nano-biotechnology research in:
• Advanced Drug Delivery Systems• Proteomics and Protein Electronics• Biosensors• Tissue Engineering• Nanotubule-based Biomedical Devices
Nanotechnology Institute Research Programs