NanotechnologyNanotechnologyNANOMATERIALS

OutlineOutline

What is Nanotechnology?How are nanotechnologies used today?What is the history of Nanotechnology?What is the future of Nanotechnology?What are the safety, hazard and public

policy issues with Nanotechnology?Research & development of nanoscience

What is Nanotechnology?What is Nanotechnology?

Nanotechnology is a catch-all phrase for materials and devices that operate at the nanoscale.

In the metric system of measurement, “Nano” equals a billionth and therefore a nanometer is one-billionth of a meter.

References to nano materials, nanoelectronics, nano devices and nanopowders simply mean the material or activity can be measured in nanometers.

How are nanotechnologies How are nanotechnologies used today?used today?The majority of nanotechnologies

commercially used today are based on nano-sized particles.

Nanoscale ZnO has been used for its UV absorbing properties to create sunscreen.

The particles' small size makes them invisible to the naked eye, so the lotion is clear.

A breakthrough in the clothing A breakthrough in the clothing industryindustrySmall whisker-like particles are used to

coat the surface fibers of the fabric, creating a stain-repelling surface.

Healthcare companies are now marketing antimicrobial bandages coated with silver nanocrystals.

Meanwhile, silver nanoparticles on the surfaces of many new refrigerators, air conditioners, and laundry machines act as antibacterial and antifungal agents.

Semiconductor particles, or Semiconductor particles, or quantum dotsquantum dotsThese fluorescent nanoparticles are being

used by biologists to stain and label cellular components.

By changing the size of the quantum dot the color emitted can be controlled.

With a single light source, one can see the entire range of visible colors, an advantage over traditional organic dyes.  

NanocompositesNanocompositesPlastic nanocomposites are used for strong,

lighter, and rust-proof car components. Toyota recently began using nanocomposites in bumpers that makes them 60% lighter and twice as resistant to denting and scratching.

The biomedical field is manufacturing artificial bone composites from nanocrystalline calcium phosphates. These composites are made of the same mineral as natural bone, yet have strength in compression equal to stainless steel.

Nano catalystsNano catalysts

For a given amount of material, as particle size decreases, surface area increases.

Nanoscale powders have extremely high surface area, and have found additional uses in applications such as catalysts.

Surface areas of nano materials can reach over 100 m 2 /gram.

The history of NanotechnologyThe history of Nanotechnology

The scientific community generally attributes the first acknowledgement of the importance of the nanoscale range to the brilliant Nobel Laureate physicist Richard Feynman in his famous 1959 lecture “There's Plenty of Room at the Bottom” in which he first proposed that the properties of materials and devices at the nanometer range would present future opportunities. The term reached greater public awareness in 1986 with the publication of “Engines of Creation: The Coming Era of Nanotechnology” by Eric Drexler.

The future of NanotechnologyThe future of Nanotechnology

Nanotechnology is expected to have an impact on nearly every industry.

The U.S. National Science Foundation has predicted that the global market for nanotechnologies will reach $1 trillion or more within 20 years.

The research community is actively pursuing hundreds of applications in nanomaterials, nanoelectronics, and bionanotechnology.

Most near term (1-5 years) applications of nanotechnology are in the form of nanomaterials. These include materials such as lighter and stronger nanocomposites, antibacterial nanoparticles, and nanostructured catalysts.

Nanodevices and nanoelectronics are farther off, perhaps 5-15 years, and will have applications in medical treatments and diagnostics, faster computers, and in sensors.

The safety, hazard and public The safety, hazard and public policy issues with Nanotechnologypolicy issues with Nanotechnology Numerous articles have recently been published

warning of the dangers presented by unregulated nanotechnologies.

While many of these concerns seem less science than science fiction, the very scale range of these materials do present safety and environmental issues that should be addressed responsibly by industry at least in the same manner as fine particulate materials are currently handled under existing health and safety guidelines.

Zinc oxide nanoparticlesZinc oxide nanoparticles

Useful as antibacterial and antifungal agents when incorporated into materials, such as surface coatings (paints), textiles, and plastics.

The bacteriostatic and fungistatic behavior of Zinc Oxide is utilized in personal care products.

The enhanced surface area of nanoparticles allows for increased interaction with bacteria. Smaller amount of Zinc Oxide for the same or improved biostatic behavior.

Zinc oxide is non-toxic, and compatible with skin, making it a suitable additive for textiles and surfaces that come in contact with humans.

Zinc Oxide’s UV attenuation properties also make it an effective additive to packaging plastics to prevent UV damage.

Zinc Oxide is also used as a catalyst for methanol synthesis. The increase in surface area of nanoscale Zinc Oxide compared to larger powders has the potential to improve the efficiency of these processes.

       

                                      

NanocatalysisNanocatalysis

Manufacturing.Environmental protection. Energy security.

Biological & soft nanomaterialsBiological & soft nanomaterials

Biological and soft nanomaterials include a variety of molecular structures, ranging from simple organic molecules to biological polymers and to hybrid organic-inorganic complexes.

The main focus is revealing the principles of how these structures self-organize into complex nanosystems, develop methods for their design and fabrication, and incorporate them into novel materials and devices.

Electronic NanomaterialsElectronic Nanomaterials

Heterogeneous nanomaterials: create and control functionality through inhomogeneity;

Correlations on the Nanoscale: focus on low-dimensional correlated systems;

Multiscale Magnetism: clarify the effect of nanostructuring on the fundamental magnetic properties

Nanamagnetism: Materials & Nanamagnetism: Materials & ProbesProbes   "Magnetic Properties of Self-Assembled

Nanoparticle Assemblies"Sara A. Majetich, Carnegie Mellon University, Pittsburgh, PA

  "Biofunctionalization and Detection of Magnetic Nanoparticles"Glenn A Held, IBM T. J. Watson Research Center, Yorktown Heights, NY

SummarySummary

What has been learned?

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Where to Get More InformationWhere to Get More Information

Nanomaterials & nanostructure, by Zhang Lide and Xie Sishen, Chemical Industry Publishing, 2005

http://www.americanelements.co.uk/nanotech.htm

http://www.nanomat.com/nanoint.htmhttp://pubs.acs.org/cen/coverstory/

8135/8135nanotechnology.html

Wishing You A Very Happy New Year!