1. Melt-assisted solid flame synthesis approach to amorphous boron nanoparticles.
- Author
-
Nersisyan, Hayk H., Joo, Sin Hyong, Yoo, Bung Uk, Cho, Young Hee, Kim, Hong Moule, and Lee, Jong-Hyeon
- Subjects
- *
AMORPHOUS alloys , *BORON compounds , *NANOPARTICLES , *THERMAL properties , *SURFACE area , *SELF-propagating high-temperature synthesis - Abstract
A melt-assisted solid flame synthesis approach was applied to synthesize boron nanoparticles in argon gas and air atmospheres. For this purpose, we investigated the characteristics of a thermally induced combustion wave in B 2 O 3 + α Mg mixtures ( α = 1.0–1.5 mol) in argon and air atmospheres. Utilizing stoichiometrically insufficient amounts of magnesium ensured that a large portion of molten B 2 O 3 remained in the sample, which reduced the combustion parameters and favored the formation of boron nanoparticles. Under these conditions the combustion temperature and burning velocity were controlled in the range of 1300–1580 °C and 0.065–0.18 cm/s, respectively, and boron nanoparticles in a ∼20–200 nm size range were obtained. The characteristics of boron nanoparticles (morphology, purity, specific surface area, oxidation activity, etc.) were analyzed and a reaction pathway leading to boron nanoparticles synthesis was proposed. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF