HRTEM low dose: the unfold of the morphed graphene, from amorphous carbon to morphed graphenes

IF 3.56 Q1 Medicine
H. A. Calderon, A. Okonkwo, I. Estrada-Guel, V. G. Hadjiev, F. Alvarez-Ramírez, F. C. Robles Hernández
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引用次数: 31

Abstract

We present experimental evidence under low-dose conditions transmission electron microscopy for the unfolding of the evolving changes in carbon soot during mechanical milling. The milled soot shows evolving changes as a function of the milling severity or time. Those changes are responsible for the transformation from amorphous carbon to graphenes, graphitic carbon, and highly ordered structures such as morphed graphenes, namely Rh6 and Rh6-II. The morphed graphenes are corrugated layers of carbon with cross-linked covalently nature and sp2- or sp3-type allotropes. Electron microscopy and numerical simulations are excellent complementary tools to identify those phases. Furthermore, the TEAM 05 microscope is an outstanding tool to resolve the microstructure and prevent any damage to the sample. Other characterization techniques such as XRD, Raman, and XPS fade to convey a true identification of those phases because the samples are usually blends or mixes of the mentioned phases.

Abstract Image

低剂量HRTEM:变形石墨烯的展开,从无定形碳到变形石墨烯
我们提出了实验证据,在低剂量条件下,透射电子显微镜对机械铣削过程中碳烟的演变变化展开。碾磨后的煤烟随碾磨程度和时间的变化而变化。这些变化导致了非晶碳向石墨烯、石墨碳和高度有序结构(如变形石墨烯,即Rh6和Rh6- ii)的转变。变形石墨烯是碳的波纹层,具有交联共价性质和sp2或sp3型同素异形体。电子显微镜和数值模拟是识别这些相的很好的辅助工具。此外,TEAM 05显微镜是一个出色的工具,以解决微观结构和防止任何损坏的样品。其他表征技术,如XRD、Raman和XPS等,由于样品通常是上述相的混合或混合,因此无法传达这些相的真实识别。
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来源期刊
Advanced Structural and Chemical Imaging
Advanced Structural and Chemical Imaging Medicine-Radiology, Nuclear Medicine and Imaging
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