Impact of covalent functionalization by diazonium chemistry on the electronic properties of graphene on SiC

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Impact of covalent functionalization by diazonium chemistry on the electronic properties of graphene on SiC

机译：通过重氮共价功能化的影响化学的电子性质石墨烯在原文如此

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Plenty of strategies focused on covalent interaction have been developed to functionalize graphene's surface in order to employ it in a wide range of applications. Among them, the use of radical species including nitrene, carbene and aryl diazonium salts is regarded as a promising strategy to establish the covalent functionalization of graphene. In this work, we highlight the effect of diazonium chemistry on the electronic properties of graphene on SiC. On the basis of X-ray and synchrotron-based photoemission experiments, we were able to prove that 3,4,5-trimethoxybenzenediazonium (TMeOD) units, reduced and chemisorbed onto graphene using electrochemistry, preserve the electronic structure of the Dirac cone, through inducing a slightly additional n-type doping of graphene, as revealed by a downshift of the Dirac cone probed by angle-resolved photoemission experiments.

机译：大量的战略集中在共价交互开发使职能化石墨烯的表面是为了使用它广泛的应用。激进的物种包括氮烯、碳烯和芳基重氮盐被认为是一种很有前途的策略建立共价石墨烯的功能化。突出的影响重氮化学在碳化硅石墨烯的电子性质。x射线和synchrotron-based的基础光电效应实验中,我们能够证明那3,4,5-trimethoxybenzenediazonium (TMeOD)单位,减少,吸附到石墨烯上使用电化学,保存电子狄拉克锥的结构,通过诱导有点额外的n型掺杂的石墨烯,揭示了狄拉克锥的减速由angle-resolved光电发射实验。

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《Nanoscale》 |2020年第16期|9032-9037|共6页
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正文语种英语
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关键词
graphene; FUNCTIONALISED; Electronic propertiesphotoelectric emissiondiazoniumdownshiftCovalent Interaction;

机译：石墨烯;FUNCTIONALISED;电子propertiesphotoelectricemissiondiazoniumdownshiftCovalent交互;

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Impact of covalent functionalization by diazonium chemistry on the electronic properties of graphene on SiC

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