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Large-scale synthesis and structure of boron nitride sub-micron spherical particles

Journal Article


Abstract


  • A novel method, combining chemical vapor deposition and pyrolysis of trimethoxyborane under ammonia atmosphere, has been developed to synthesize spherical boron nitride particles with a uniform diameter distribution from 50 to 400 nm; chemical composition and high-resolution transmission electron microscopy analyses indicate that the sub-micron boron nitride particles exhibit a slightly distorted arrangement of the shell layers. © 2002 Royal Society of Chemistry.

Publication Date


  • 2002

Citation


  • Tang, C., Bando, Y., & Golberg, D. (2002). Large-scale synthesis and structure of boron nitride sub-micron spherical particles. Chemical Communications, 2(23), 2826-2827. doi:10.1039/b208785e

Scopus Eid


  • 2-s2.0-0036435276

Start Page


  • 2826

End Page


  • 2827

Volume


  • 2

Issue


  • 23

Abstract


  • A novel method, combining chemical vapor deposition and pyrolysis of trimethoxyborane under ammonia atmosphere, has been developed to synthesize spherical boron nitride particles with a uniform diameter distribution from 50 to 400 nm; chemical composition and high-resolution transmission electron microscopy analyses indicate that the sub-micron boron nitride particles exhibit a slightly distorted arrangement of the shell layers. © 2002 Royal Society of Chemistry.

Publication Date


  • 2002

Citation


  • Tang, C., Bando, Y., & Golberg, D. (2002). Large-scale synthesis and structure of boron nitride sub-micron spherical particles. Chemical Communications, 2(23), 2826-2827. doi:10.1039/b208785e

Scopus Eid


  • 2-s2.0-0036435276

Start Page


  • 2826

End Page


  • 2827

Volume


  • 2

Issue


  • 23