Carbon Trends (Jun 2024)

Rhombohedral stacking-faults in exfoliated highly oriented pyrolytic graphite

  • Filippo Boi,
  • Cheng-Yang Lee,
  • Shanling Wang,
  • Hansong Wu,
  • Lei Li,
  • Lin Zhang,
  • Jiaxin Song,
  • Yixin Dai,
  • Ayoub Taallah,
  • Omololu Odunmbaku,
  • Anna Corrias,
  • Aleksandra Baron-Wiechec,
  • Shuping Zheng,
  • Salvatore Grasso

Journal volume & issue
Vol. 15
p. 100345

Abstract

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The recent observation of possible granular superconductivity in highly oriented pyrolytic graphite (HOPG) has attracted significant research interest. Here we report a novel investigation on the structural-properties of exfoliated-HOPG. We investigated two types of exfoliation methods, involving either a full (method-1) or partial (method-2) contact between adhesive tape and the main HOPG. Structural characterization was obtained by employing X-ray diffraction (XRD), Raman spectroscopy and electron microscopy (SEM). In particular, Raman point and mapping spectroscopy revealed significant structural-transitions from ABA (Bernal) to ABC (rhombohedral) stacking (stacking-faults), in those samples obtained with the method-2. Interestingly, strained regions exhibiting structural-deformations with a ridge-like morphology were reproducibly identified. The acquired Raman-spectra revealed a local enhancement of the D and D’ bands-intensity together with contributions arising from Electronic Raman Scattering (ERS) across the band-gap of rhombohedral-graphite, at middle (∼1870 cm−1) and high (∼ 2680 cm−1) frequency. HRTEM of the samples produced with the method-2 allowed also for the identification of local-coexistence of ripplocation-like defects with moiré superlattices, an indicator of non-uniform c-axis configuration.

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