Graphite oxide was synthesized from

Graphite oxide was synthesized from natural graphite (SP-1, Bay Carbon) by a modified Hummers method as originally presented by Kovtyukhova and colleagues10,30 . As-synthesized graphite oxide was suspended in water to give a brown dispersion, which was subjected to dialysis to completely remove residual salts and acids. Ultrapure Milli-Qฎ water was used in all experiments. As-purified graphite oxide suspensions were then dispersed in water to create a 0.05 wt% dispersion. Exfoliation of graphite oxide to GO was achieved by ultrasonication of the dispersion using a Brandson Digital Sonifier (S450D, 500 W, 30% amplitude) for 30 min. The obtained brown dispersion was then subjected to 30 min of centrifugation at 3,000 r.p.m. to remove any unexfoliated graphite oxide (usually present in a very small amount) using an Eppendorf 5702 centrifuge with a rotor radius of 14 cm. In a typical procedure for chemical conversion of graphite oxide to graphene, the resulting homogeneous dispersion (5.0 ml) was mixed with 5.0 ml of water, 5.0 ml of hydrazine solution (35 wt% in water, Aldrich) and 35.0 ml of ammonia solution (28 wt% in water, Crown Scientific) in a 20- ml glass vial. The weight ratio of hydrazine to GO was about 7:10. After being vigorously shaken or stirred for a few minutes, the vial was put in a water bath (~95 oC) for 1 h. Unless specifically stated, graphene dispersions prepared according to the above procedure were used for further characterization and film fabrication in this work. Note that the concentration of hydrazine in the reduction mixture can be varied from 0.0175 wt% (used in the above procedure) to 1.75 wt%. However, in order to obtain stable dispersions when the concentration is greater than 0.0175 wt%, excess hydrazine in the resulting dispersions must be removed by dialysis against a ~0.5% ammonia solution once the reduction is complete. A RN2H4/GO ratio of 7:10 appears to be an optimal ratio for producing stable dispersions of highly conducting graphene sheets.