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Title: Composition-controlled synthesis and tunable optical properties of ternary boron carbonitride nanotubes
Authors: Li, Hongling
Tay, Roland Yingjie
Tsang, Siu Hon
Jing, Lin
Zhu, Minmin
Leong, Fei Ni
Teo, Edwin Hang Tong
Keywords: Boron Carbonitride Nanotubes
Tunable Optical Properties
Issue Date: 2017
Source: Li, H., Tay, R. Y., Tsang, S. H., Jing, L., Zhu, M., Leong, F. N., et al. (2017). Composition-controlled synthesis and tunable optical properties of ternary boron carbonitride nanotubes. RSC Advances, 7(21), 12511-12517.
Series/Report no.: RSC Advances
Abstract: Controlling the composition and structure of boron carbonitride nanotubes (BCNNTs) is the critical factor for tuning their electrical and optical properties, which in turn allows for the broadening of their applications. However, most of the known methods for synthesizing BCNNTs employ toxic precursors at high temperatures (up to 2000 °C) and the achieved BCNNTs usually encounter phase-separation of BN and C. Herein, a facile large-scale synthesis of ternary BCNNTs with controllable composition by a chemical vapor deposition process at a relatively low temperature of 900 °C is reported. By simply adjusting the synthetic parameters, BCNNTs with two different atomic ratios of B : C : N can be successfully synthesized. Their morphologies and ternary structure as well as optical properties are further investigated. Notably, the as-prepared BNCNTs-50 are stable up to 900 °C in air and exhibit an optical band gap of ∼4.36 eV. The results demonstrated in this study will open new avenues for a variety of potential applications of BCNNTs in electronics, photonics, sensors and high temperature lubricants.
DOI: 10.1039/C7RA00449D
Rights: © 2017 Royal Society of Chemistry
Fulltext Permission: none
Fulltext Availability: No Fulltext
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