Molecular dynamics calculations define optimum strand lengths for the assembly of DNA films as greater than 10 and less than 30 nucleotides.
Zyvex Labs researchers demonstrate atomically precise removal of 50 hydrogen atoms per second from a silicon surface.
Video footage of conference focused on “Updating the social contract for Science”
New X-ray laser to make stop-motion movies of atomic processes
This humorous essay at Cracked.com by David Wong has a lot of truth in it about the change we are now seeing in how the economy functions, as so many goods and services are produced using automation: And if someday we do perfect cold-fusion reactors or nanotech manufacturing and everyone has 100 GB/second Wi-Fi connections downloading… Continue reading Forced Artificial Scarcity: the economy of the future
Redefining Humanity in the Era of Radical Technological Change, December 4-5, 2010, Pasadena, CA
An energy cell containing a lead zirconate titanate cantilever coated with a carbon nanotube film uses nanotechnology to produce electricity from scavenged light and thermal energy.
Reconfiguring the topology of DNA nanostructures offers novel architectures for nanodevices.
DNA springs mechanically control an enzymatic reactions by exerting force on specific parts of the enzyme molecule.
Unique properties of two-dimensional arrays of carbon atoms promise both immediate applications and advantages for the development of advanced nanotechnology.
