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Nanotechnology: Opportunities and Impacts of a Scientific Revolution National Conference of State Legislatures Nashville, Tennessee August 16, 2006 James B. Roberto Deputy Director for Science and Technology Oak Ridge National Laboratory Oak Ridge, Tennessee

Nanotechnology: Opportunities and impacts of a scientific revolution What is nanotechnology? The tools of nanotechnology Nanotech in the 21st Century 2

Feynman s vision: There s plenty of room at the bottom Why can t we manipulate materials atom by atom? Why can t we control the synthesis of individual molecules? Why can t we write all of human knowledge on the head of a pin? Why can t we build machines to accomplish these things? 3

Nature s benchmarks DNA (50 atoms per bit of information) Molecular motors The human brain! 100 trillion (10 14 ) connections! a million billion (10 15 ) bits of memory! a million billion (10 15 ) calculations per second Self-assembled composites (shells) Dinosaur claw DNA Abalone shell 4

What is nanoscience A revolution in the way we look at the physical world Allows the study of materials at length scales where properties are determined Addresses materials behavior at dimensions of 1-100 nm! Properties depend on size (small is different)! New and unexpected phenomena! Requires atom-by-atom assembly Interactions of protein molecules Natural methane storage in clathrate molecules 5

Why now? New tools for atomic-scale characterization New capabilities for single atom/molecule manipulation Computational access to large systems of atoms and long time scales DOE s first nanoscience center World s foremost neutron science center Leadership-class computing Oak Ridge National Laboratory is investing $2B in world-class nanotech tools 6

World-class capabilities for nanotechnology at ORNL The Spallation Neutron Source Nation s largest civilian science project $1.4B in buildings and equipment World s most powerful pulsed neutron source Nanoscale structure and dynamics of materials and biological systems 1500-2000 scientific users annually First neutrons produced April 28, 2006 7

World-class capabilities for nanotechnology at ORNL The Center for Nanophase Materials Sciences DOE s first nanoscience center $65M in buildings and equipment State-of-the-art synthesis and characterization of nanoscale materials and structures Available to universities and industry based on competitive peer review The CNMS is located next to the Spallation Neutron Source 8

World-class capabilities for nanotechnology at ORNL Leadership-class computing Large-scale simulation needed to predict materials properties and trends We are building the world s most powerful computer for scientific research Predicting new materials rather than explaining existing ones Building to 1 petaflop by 2008 Understanding microbial molecular and cellular systems Designing innovative nanomaterials 9

The promise of nanotechnology! More powerful computers! New materials 100 times as strong as current materials! New approaches for medical diagnosis and treatment! New catalysts for cleaner, more efficient chemical and energy industries! New technologies for energy production and conversion! Fast chemical analyses Metabolism of Cellulose by Enzymes Molecular switches DNA delivery Magnetic nanoclusters 10

Recruit nano companies and grow our own Build a pipeline of new talent! Scientists and entrepreneurs Establish a Southern Alliance for Nanotechnology Create a nano commercialization facility to leverage existing research facilities Leverage $2 billion of new nano facilities Connect with world-class researchers Access patented technology Plant the seed of a new business 11

Nanotechnology in the 21st Century Dramatic advances at the frontiers of physics, chemistry, materials sciences, and biology New products and services for medicine, materials, information technology, energy, environment, biotechnology, and national security Broad engagement of the public to address societal implications Nanoscience will change the nature of almost every human-made object in the next century. National Science and Technology Council, 2000 12

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