氧化石墨烯横向尺寸减小同时保留其电子特性和化学功能。

Lateral size reduction of graphene oxide preserving its electronic properties and chemical functionality.

作者信息

Méndez-Romero Ulises A, Pérez-García Sergio Alfonso, Fan Qunping, Wang Ergang, Licea-Jiménez Liliana

机构信息

Centro de Investigación en Materiales Avanzados S.C., Unidad Monterrey Alianza Norte No. 202, PIIT Apodaca N.L. CP 66628 Mexico

Department of Chemistry and Chemical Engineering, Chalmers University of Technology SE-412 96 Göteborg Sweden

出版信息

RSC Adv. 2020 Aug 10;10(49):29432-29440. doi: 10.1039/d0ra04726k. eCollection 2020 Aug 5.

DOI:10.1039/d0ra04726k

PMID:35521117

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9055993/

Abstract

Graphene oxide (GO) is widely considered as a graphene precursor when chemically reduced. Nevertheless, through the precise control of two parameters: lateral size and oxidation degree, GO can be useful in many applications as modified graphene oxide or functional reduced graphene oxide. Commonly, the decrease in GO lateral size, involves a change in the C/O ratio and therefore a modification in a large number of characteristics. Here, a simple but effective approach to synthesize GO with lateral dimensions below 100 nm and without modification of its chemical, optical and electronic features is presented. The use of a sonifier at low temperature allows to rapidly reduce the lateral size in ∼82% while preserving the C/O ratio and consequently the chemical stability, the band gap, the electronic energy levels and the functionality. This method will allow several applications from biomedicine to energy, where reliable reduced size of GO is required.

摘要

氧化石墨烯（GO）在化学还原时被广泛认为是石墨烯的前体。然而，通过精确控制横向尺寸和氧化程度这两个参数，GO作为改性氧化石墨烯或功能化还原氧化石墨烯可在许多应用中发挥作用。通常，GO横向尺寸的减小会涉及C/O比的变化，进而导致大量特性的改变。在此，提出了一种简单而有效的方法来合成横向尺寸低于100 nm且不改变其化学、光学和电子特性的GO。在低温下使用超声处理器可在保留C/O比以及化学稳定性、带隙、电子能级和功能的同时，迅速将横向尺寸减小约82%。该方法将适用于从生物医学到能源等需要可靠减小尺寸的GO的多种应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3d3e/9055993/093847ba6b2c/d0ra04726k-f1.jpg

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氧化石墨烯横向尺寸减小同时保留其电子特性和化学功能。

Lateral size reduction of graphene oxide preserving its electronic properties and chemical functionality.

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