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定制化石墨烯纳米颗粒的开发:通过互补技术的制备、分类和结构评估。

Development of Tailored Graphene Nanoparticles: Preparation, Sorting and Structure Assessment by Complementary Techniques.

机构信息

Dipartimento di Chimica, Materiali e Ingegneria Chimica Giulio Natta, Politecnico di Milano, 20133 Milano, Italy.

Dipartimento di Scienze Biomediche per la Salute, Università degli Studi di Milano, 20133 Milano, Italy.

出版信息

Molecules. 2023 Jan 5;28(2):565. doi: 10.3390/molecules28020565.

Abstract

We present a thorough structural characterization of Graphene Nano Particles (GNPs) prepared by means of physical procedures, i.e., ball milling and ultra-sonication of high-purity synthetic graphite. UV-vis absorption/extinction spectroscopy, Dynamic Light Scattering, Transmission Electron Microscopy, IR and Raman spectroscopies were performed. Particles with small size were obtained, with an average lateral size = 70−120 nm, formed by few = 1−10 stacked layers, and with a small number of carboxylic groups on the edges. GNPs relatively more functionalized were separated by centrifugation, which formed stable water dispersions without the need for any surfactant. A critical reading and unified interpretation of a wide set of spectroscopic data was provided, which demonstrated the potential of Specular Reflectance Infrared Spectroscopy for the diagnosis and quantification of chemical functionalization of GNPs. Raman parameters commonly adopted for the characterization of graphitic materials do not always follow a monotonic trend, e.g., with the particle size and shape, thus unveiling some limitations of the available spectroscopic metrics. This issue was overcome thanks to a comparative spectra analysis, including spectra deconvolution by means of curve fitting procedures, experiments on reference materials and the exploitation of complementary characterization techniques.

摘要

我们对通过物理方法(即高纯合成石墨的球磨和超声处理)制备的石墨烯纳米颗粒(GNP)进行了全面的结构表征。进行了紫外可见吸收/消光光谱、动态光散射、透射电子显微镜、红外和拉曼光谱研究。得到了粒径较小的颗粒,平均横向尺寸 = 70-120nm,由 1-10 个堆叠层组成,边缘有少量羧酸基团。通过离心分离出相对更功能化的 GNP,形成了无需任何表面活性剂即可稳定分散在水中的分散体。对广泛的光谱数据进行了仔细的解读和统一的解释,证明了镜面反射红外光谱在 GNP 化学功能化的诊断和定量方面的潜力。通常用于表征石墨材料的拉曼参数并不总是遵循单调趋势,例如与颗粒尺寸和形状有关,从而揭示了现有光谱度量的一些局限性。通过比较光谱分析、曲线拟合程序的光谱解卷积、参考材料的实验以及互补表征技术的应用,克服了这一问题。

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