Three molecules thick, or two, or one: how does an extremely thin layer of trapped liquid behave when we make it even thinner? Measurements made using the Atomic Force Microscope show that the forces of friction increase with each step.
As of yesterday, all PDF versions of books published by the National Academies Press will be downloadable to anyone free of charge. This includes a current catalog of more than 4,000 books plus future reports produced by the Press.
Using a high-resolution single-molecule study technique, University of Illinois researchers have seen the very subtle differences between two branches of an important family of neurotransmitter-gated ion channels.
National Grid today presented a $225,000 Renewable Energy and Economic Development grant to the College of Nanoscale Science and Engineering (CNSE) of the University at Albany to help enable a green energy initiative that will establish a Photovoltaic Control and Monitoring Center at CNSE's Albany NanoTech Complex.
A University of California, San Diego faculty-student team is about to demonstrate a first-of-its kind, phase-change memory solid state storage device that provides performance thousands of times faster than a conventional hard drive and up to seven times faster than current state-of-the-art solid-state drives.
In many ways, life is like a computer. An organism's genome is the software that tells the cellular and molecular machinery - the hardware - what to do. But instead of electronic circuitry, life relies on biochemical circuitry - complex networks of reactions and pathways that enable organisms to function. Now, researchers at the California Institute of Technology (Caltech) have built the most complex biochemical circuit ever created from scratch, made with DNA-based devices in a test tube that are analogous to the electronic transistors on a computer chip.
A world premiere: a material which changes its strength, virtually at the touch of a button. This transformation can be achieved in a matter of seconds through changes in the electron structure of a material; thus hard and brittle matter, for example, can become soft and malleable.
Seven speakers presented at Johns Hopkins Institute for NanoBioTechnology's fifth annual nano-bio symposium, held May 13, 2011. This year's topic - cancer nanotechnology - was approached from a variety of angles.