多层氧化石墨烯薄膜的室温亚稳性。

Room-temperature metastability of multilayer graphene oxide films.

机构信息

School of Physics, Georgia Institute of Technology, Atlanta, Georgia 30332-0430, USA.

出版信息

Nat Mater. 2012 May 6;11(6):544-9. doi: 10.1038/nmat3316.

PMID:22561900

Abstract

Graphene oxide potentially has multiple applications. The chemistry of graphene oxide and its response to external stimuli such as temperature and light are not well understood and only approximately controlled. This understanding is crucial to enable future applications of this material. Here, a combined experimental and density functional theory study shows that multilayer graphene oxide produced by oxidizing epitaxial graphene through the Hummers method is a metastable material whose structure and chemistry evolve at room temperature with a characteristic relaxation time of about one month. At the quasi-equilibrium, graphene oxide reaches a nearly stable reduced O/C ratio, and exhibits a structure deprived of epoxide groups and enriched in hydroxyl groups. Our calculations show that the structural and chemical changes are driven by the availability of hydrogen in the oxidized graphitic sheets, which favours the reduction of epoxide groups and the formation of water molecules.

摘要

氧化石墨烯具有多种潜在应用。然而，人们对氧化石墨烯的化学性质及其对外界刺激（如温度和光）的响应机制了解甚少，且仅能进行大致控制。为了实现这种材料的未来应用，深入理解这些内容至关重要。在这里，一项结合实验和密度泛函理论的研究表明，通过 Hummers 法氧化外延石墨烯所制备的多层氧化石墨烯是一种亚稳态材料，其结构和化学性质会在室温下随时间发生演变，特征弛豫时间约为一个月。在准平衡状态下，氧化石墨烯达到了近乎稳定的还原 O/C 比，并呈现出一种缺少环氧化物基团且富含羟基的结构。我们的计算表明，结构和化学变化是由氧化石墨片中氢的可用性驱动的，这有利于环氧化物基团的还原和水分子的形成。

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多层氧化石墨烯薄膜的室温亚稳性。

Room-temperature metastability of multilayer graphene oxide films.

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