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arxiv: 2312.02621 · v1 · pith:ERMDUT3U · submitted 2023-12-05 · cond-mat.mtrl-sci

Probing defectivity beneath the hydrocarbon blanket in 2D hBN using TEM-EELS

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classification cond-mat.mtrl-sci
keywords blanketcontaminationdefectanalysisatomicbeneathborondefects
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The controlled creation and manipulation of defects in 2D materials has become increasingly popular as a means to design and tune new material functionalities. However, defect characterization by direct atomic imaging is often severely limited by surface contamination due to a blanket of hydrocarbons. Thus, analysis techniques are needed that can characterize atomic scale defects despite the contamination. In this work we use electron energy loss spectroscopy to probe beneath the hydrocarbon blanket, characterizing defect structures in 2D hexagonal boron nitride (hBN) based on fine structure in the boron K-edge. Since this technique is performed in a transmission electron microscope, imaging can also be used to assess contamination levels and other factors such as tears in the fragile 2D sheets, which can affect the spectroscopic analysis. Furthermore, by locally probing individual areas, multiple regions on the same specimen that have undergone different defect engineering treatments can be investigated for systematic studies at increased throughput. For 2D hBN samples irradiated with different ions for a range doses, we find spectral signatures indicative of boron-oxygen bonding that can be used as a measure of sample defectiveness depending on the ion beam treatment.

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