New method for self-assembling molecules

New method for self-assembling molecules. Researchers at the University of Sheffield have discovered a new way of making small molecules self-assemble into complex nanopatterns, which will push the limits of what is possible in `bottom-up´ methods of nanopatterning for advanced functional materials through molecular self-assembly. The research, which was led by Dr Xiangbing Zeng and Professor Goran Ungar from the Department of Materials Science and Engineering, and colleagues from Martin Luther University Halle-Wittenberg in Germany, is published in Science today (11 March 2011). The study opens the way to new methods of producing `bottom-up´ ultra-small electronic and photonic integrated circuits. This would mean that instead of the expensive and slow electron, ion-beam or X-ray lithography, the molecules would assemble and form the desired patterns themselves. Today visible or UV light is still used, but how small a pattern can be made is limited by the wavelength of light, that is of the order of a micron. Solid-state materials, particularly those performing useful functions, often have their atoms and molecules arranged in rigid frameworks whose shapes are determined by the fixed lengths and angles of the strong chemical bonds that tolerate little change.