Functional Diamond (Dec 2022)

Research on controllable ozone oxidation on diamond surface

  • Tao Qiu,
  • Meihua Liu,
  • Tangbangguo Zhou,
  • Xu Lin,
  • Bin Xu

DOI
https://doi.org/10.1080/26941112.2022.2098064
Journal volume & issue
Vol. 2, no. 1
pp. 84 – 93

Abstract

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In recent years, there have been more and more researches on the surface modification of diamonds, however, the exact types and quantities of oxygen-related species on diamond surfaces and the method to control the condition parameters to obtain as many oxygen-containing groups as possible have been rarely studied so far. Therefore, in this work, we focused on these questions. And we find out that ozone oxidation would not affect the overall crystal structure and morphology of diamonds. Besides, changing oxidation time and ozone concentration would significantly influence the density of hydroxyl groups, which is manifested as a change of oxygen content. In order to make the hydroxyl density on diamond surface reach a high level (3.12 × 1014 units/cm2), so that diamonds can be better combined with the resin matrix, the ozone oxidation time should be 15 min, and the ozone concentration should be 115 g•m−3. And under these conditions, the thermal conductivity of diamond and polysiloxane composites can reach 8.02 W/mK.

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