Nanoscale Research Letters (Oct 2017)

Raman Spectra and Bulk Modulus of Nanodiamond in a Size Interval of 2–5 nm

  • Mikhail Popov,
  • Valentin Churkin,
  • Alexey Kirichenko,
  • Viktor Denisov,
  • Danila Ovsyannikov,
  • Boris Kulnitskiy,
  • Igor Perezhogin,
  • Viktor Aksenenkov,
  • Vladimir Blank

DOI
https://doi.org/10.1186/s11671-017-2333-0
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 6

Abstract

Read online

Abstract Nanodiamond in a 2–5-nm size interval (which is typical for an appearance of quantum confinement effect) show Raman spectra composed of 3 bands at 1325, 1600, and 1500 cm−1 (at the 458-nm laser excitation) which shifts to 1630 cm−1 at the 257-nm laser excitation. Contrary to sp2-bonded carbon, relative intensities of the bands do not depend on the 458- and 257-nm excitation wavelengths, and a halfwidth and the intensity of the 1600 cm−1 band does not change visibly under pressure at least up to 50 GPa. Bulk modulus of the 2–5-nm nanodiamond determined from the high-pressure study is around 560 GPa. Studied 2–5-nm nanodiamond was purified from contamination layers and dispersed in Si or NaCl.

Keywords