Scientific Reports (Sep 2022)

Enhancing the electrical properties of graphite nanoflake through gamma-ray irradiation

  • Anh Tuan Nguyen,
  • Youlim Lee,
  • Phuong Quang Hoang Nguyen,
  • Przemyslaw Dera,
  • Sang-Hee Yoon,
  • Woochul Lee

DOI
https://doi.org/10.1038/s41598-022-19232-2
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 7

Abstract

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Abstract Understanding changes in material properties through external stimuli is critical to validating the expected performance of materials as well as engineering material properties in a controlled manner. Here, we investigate a change in the c-axis electrical properties of graphite nanoflakes (GnFs) induced by gamma-ray irradiation, using conductive probe atomic force microscopy (CP-AFM). The fundamentals behind the change in their electrical properties are elucidated by analyzing the interlayer spacing, graphitization, and morphology. An increase in gamma-ray irradiation dose for GnFs leads to an exponential increase in the electrical conductance and a gradual decrease in the interlayer spacing, while accompanying indistinguishable changes in their morphology. Our experimental results suggest that the c-axis electrical conductance enhancement of GnFs with gamma-ray irradiation might be attributed to a reduction in interlayer spacing, though the created defects may also play a role. This study demonstrates that gamma-ray irradiation can be a promising route to tailor the electrical properties of GnFs.