Electrical energy is presently obtained by utilizing the difference between positively and negatively charged electrons. Electrons have a third property, their spin, or a small magnetic field pointing up or down. This property is not used currently by electrical devices because the devices are too big compared to the nanoscale electrons.
A researcher in Israel is focusing on using the spin information to create energy efficient batteries and to prevent the huge quantities of power that we lose while transmitting electricity through conventional wires. Superconductors can prevent such energy loss; but technology now requires super cool temperatures for superconductors to work. Researchers are hoping that using nanotechnology, they might be able to develop superconducting materials that work at room temperatures.
Today’s solid state disk drives manage to use ordered atoms packed together. When atoms in a material are arranged in an ordered fashion, properties of the material change. Working at nanoscale, it is theoretically possible to design materials with customized properties.
Working at nanoscale is no simple matter, however. A nanometer is one-billionth of a meter and you need highly advanced tools like Scanning Electron Microscope to find what is happening at this scale. The Israel research facility has just been equipped with equipment like a Rutherford Backscattering Spectrometry, Scanning Electron Microscope and Environmental Scanning Microscope.
Using these advanced facilities, researchers hope to understand how maerial properties change at nanoscale and other issues involved. Read the report at Israel21c.
