石墨烯基原子层沉积电介质中的损伤评估

Damage evaluation in graphene underlying atomic layer deposition dielectrics.

作者信息

Tang Xiaohui, Reckinger Nicolas, Poncelet Olivier, Louette Pierre, Ureña Ferran, Idrissi Hosni, Turner Stuart, Cabosart Damien, Colomer Jean-François, Raskin Jean-Pierre, Hackens Benoit, Francis Laurent A

机构信息

ICTEAM Institute, Université catholique de Louvain, Place du Levant 3, 1348 Louvain-la-Neuve, Belgium.

Research Group on Carbon Nanostructures (CARBONNAGe), University of Namur, Rue de Bruxelles 61, 5000 Namur, Belgium.

出版信息

Sci Rep. 2015 Aug 27;5:13523. doi: 10.1038/srep13523.

DOI:10.1038/srep13523

PMID:26311131

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4550929/

Abstract

Based on micro-Raman spectroscopy (μRS) and X-ray photoelectron spectroscopy (XPS), we study the structural damage incurred in monolayer (1L) and few-layer (FL) graphene subjected to atomic-layer deposition of HfO2 and Al2O3 upon different oxygen plasma power levels. We evaluate the damage level and the influence of the HfO2 thickness on graphene. The results indicate that in the case of Al2O3/graphene, whether 1L or FL graphene is strongly damaged under our process conditions. For the case of HfO2/graphene, μRS analysis clearly shows that FL graphene is less disordered than 1L graphene. In addition, the damage levels in FL graphene decrease with the number of layers. Moreover, the FL graphene damage is inversely proportional to the thickness of HfO2 film. Particularly, the bottom layer of twisted bilayer (t-2L) has the salient features of 1L graphene. Therefore, FL graphene allows for controlling/limiting the degree of defect during the PE-ALD HfO2 of dielectrics and could be a good starting material for building field effect transistors, sensors, touch screens and solar cells. Besides, the formation of Hf-C bonds may favor growing high-quality and uniform-coverage dielectric. HfO2 could be a suitable high-K gate dielectric with a scaling capability down to sub-5-nm for graphene-based transistors.

摘要

基于显微拉曼光谱（μRS）和X射线光电子能谱（XPS），我们研究了在不同氧等离子体功率水平下，单层（1L）和少层（FL）石墨烯在进行HfO2和Al2O3原子层沉积时所遭受的结构损伤。我们评估了损伤程度以及HfO2厚度对石墨烯的影响。结果表明，对于Al2O3/石墨烯体系，在我们的工艺条件下，无论是1L还是FL石墨烯都会受到严重损伤。对于HfO2/石墨烯体系，μRS分析清楚地表明，FL石墨烯的无序程度低于1L石墨烯。此外，FL石墨烯中的损伤程度随着层数的增加而降低。而且，FL石墨烯的损伤与HfO2薄膜的厚度成反比。特别地，扭曲双层（t-2L）的底层具有1L石墨烯的显著特征。因此，FL石墨烯在电介质的等离子体增强原子层沉积（PE-ALD）HfO2过程中能够控制/限制缺陷程度，并且可能是构建场效应晶体管、传感器、触摸屏和太阳能电池的良好起始材料。此外，Hf-C键的形成可能有利于生长高质量且覆盖均匀的电介质。HfO2可能是一种合适的高介电常数栅极电介质，对于基于石墨烯的晶体管具有缩小至亚5纳米的缩放能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b943/4550929/d7ddf3a9010c/srep13523-f1.jpg

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石墨烯基原子层沉积电介质中的损伤评估

Damage evaluation in graphene underlying atomic layer deposition dielectrics.

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