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Acc. Chem. Res.最新综述:你和石墨烯要去的地方! 已有18人参与
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最新一期的Acc. Chem. Res.刊发了由Richard B. Kaner撰写的题为Oh, the Places You’ll Go with Graphene前瞻性综述,主要介绍了石墨烯研究的当前进展以及现有的研究领域,并对今后石墨烯的发展做了前瞻性的介绍。文章10页,引文31篇。 Since the first reported isolation of graphene by peeling graphite with cellophane tape in 2004, there has been a paradigm shift in research. In just nine years, graphene has had a major impact on fields ranging from physics and chemistry to materials science and engineering leading to a host of interdisciplinary advances in nanotechnology. Graphene is attractive because it possesses many extraordinary characteristics that are a direct consequence of its unique atomic structure, as discussed here. For over a decade, our group has been exploring new routes to synthesize graphene so that this potentially important material can be scaled up for use in practical applications. We have made several significant discoveries starting with the synthesis of few-layer graphene from intercalation/exfoliation reactions that upon sonication produce carbon nanoscrolls. Next, we developed high-throughput methods for producing chemically converted graphene from graphene oxide using either aqueous or anhydrous hydrazine. Recently, we introduced an inexpensive process that uses the laser in an optical drive to deoxygenate graphite oxide layers to create laser scribed graphene. The impetus of this Account is to discuss both synthetic routes to graphene and their applications. The first part highlights both our top-down and bottom-up routes to graphene, which includes intercalation/exfoliation, chemical reduction with hydrazine and other organic reagents, chemical vapor deposition, and laser scribed graphene. In the later part, we emphasize the significance of these contributions to the field and how each approach has afforded us unique opportunities to explore graphene’s properties. This has resulted in new applications such as practical chemical sensors, flash memory storage devices, transparent conductors, distributed ignition, and supercapacitors. /  ar-2012-00184v_0015.gif [ 来自科研家族 材料家族 ] |
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2013-01-11 10:45:55, 2.25 M
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| Graphene | 机械力化学 | 高分子复合材料 | 实验分析方法 |
| 纳米材料 | 纳米材料 | 毕业论文-石墨烯 |
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