11-08-31 Writing in the journal Nature Communications, a collaboration between the Universities of Manchester and Cambridge, which includes Nobel Prize winning scientists Professor Andre Geim and Professor Kostya Novoselov, has discovered a crucial recipe fo...

11-07-19 A new approach to growing graphene（石墨烯） greatly reduces problems that have plagued researchers in the past and clears a path to the crystalline form of graphite's use in sophisticated electronic devices of tomorrow. Findings of researchers at t...

11-04-28 Researchers at the National Institute of Standards and Technology (NIST) have shown that the electronic properties of two layers of graphene（石墨烯） vary on the nanometer scale. The surprising new results reveal that not only does the difference i...

11-04-15 A team led by Professor Andre Geim, a recipient of the 2010 Nobel Prize for graphene, can now show that electric current a flow of electrons can magnetise（使磁化） graphene. The results, reported in Science, could be a potentially huge breakthrough...

10-11-12 Future computers may run a little sweeter, thanks to a refinement（精制，提纯） in the manufacture of graphene（石墨烯） at Rice University. Rice researchers have learned to make pristine（原始的） sheets of graphene, the one-atom-thick form of carb...

10-10-27 Researchers at Rensselaer Polytechnic Institute developed a new method for using water to tune the band gap of the nanomaterial graphene（石墨烯） , opening the door to new graphene-based transistors and nanoelectronics. By exposing a graphene film...

10-10-14 Rice University research that capitalizes on（利用） the wide-ranging capabilities of graphene（石墨烯） could lead to circuit applications that are far more compact and versatile（通用的，万能的） than what is now feasible with silicon-based techno...

10-09-06 Graphene（石墨烯，单层石墨） , a one-atom-thick layer of graphitic carbon, has great potential to make electronic devices such as radios, computers and phones faster and smaller. But its unique properties have also led to difficulties in integrating...

10-08-24 Nanoscale simulations（模拟，仿真） and theoretical research performed at the Department of Energy's Oak Ridge National Laboratory are bringing scientists closer to realizing graphene（石墨烯，单层石墨） 's potential in electronic applications. A re...

09-12-18 A single-atom-thick sheet of carbon, like those seen in pencil marks -- offers great potential for new types of nanoscale纳米级 devices, if a good way can be found to mold the material into desired shapes. Chemists at the University of Illinois at C...