Institut de Sciences des Matériaux de Mulhouse, CNRS-UMR 7361, Université de Haute Alsace , 3Bis, rue Alfred Werner, Mulhouse 68093, France.
Nanosciences group, CEMES CNRS-UPR 8011 , 29 Rue Jeanne Marvig, BP 94347, Toulouse 31055, France.
ACS Nano. 2017 Jan 24;11(1):627-634. doi: 10.1021/acsnano.6b06913. Epub 2017 Jan 3.
Based on a low-temperature scanning tunneling microscopy study, we present a direct visualization of a cycloaddition reaction performed for some specific fluorinated maleimide molecules deposited on graphene. Up to now, it was widely admitted that such a cycloaddition reaction can not happen without pre-existing defects. However, our study shows that the cycloaddition reaction can be carried out on a defect-free basal graphene plane at room temperature. In the course of covalently grafting the molecules to graphene, the sp conjugation of carbon atoms was broken, and local sp bonds were created. The grafted molecules perturbed the graphene lattice, generating a standing-wave pattern with an anisotropy which was attributed to a (1,2) cycloaddition, as revealed by T-matrix approximation calculations. DFT calculations showed that while both (1,4) and (1,2) cycloadditions were possible on free-standing graphene, only the (1,2) cycloaddition could be obtained for graphene on SiC(0001). Globally averaging spectroscopic techniques, XPS and ARPES, were used to determine the modification in the elemental composition of the samples induced by the reaction, indicating an opening of an electronic gap in graphene.
基于低温扫描隧道显微镜的研究,我们直接观察到一些特定的氟化马来酰亚胺分子在石墨烯上的环加成反应。到目前为止,人们普遍认为,如果没有预先存在的缺陷,这种环加成反应是不可能发生的。然而,我们的研究表明,在室温下,环加成反应可以在无缺陷的基底石墨烯平面上进行。在将分子共价接枝到石墨烯的过程中,碳原子的 sp 键被打断,形成局部的 sp 键。接枝分子会扰动石墨烯晶格,产生一种各向异性的驻波图案,这归因于 T 矩阵近似计算揭示的(1,2)环加成。DFT 计算表明,虽然(1,4)和(1,2)环加成在独立的石墨烯上都是可能的,但只有在 SiC(0001)上的石墨烯上才能得到(1,2)环加成。全局平均光谱技术,XPS 和 ARPES,用于确定反应引起的样品元素组成的变化,表明石墨烯中的电子能带隙打开。
