X-ray photoelectron spectroscopy and first principles calculation of BCN nanotubes

Authors
Kim, Shin YoungPark, JeungheeChoi, Hyun ChulAhn, Jae PyungHou, Jin QiangKang, Hong Seok
Issue Date
2007-02-14
Publisher
AMER CHEMICAL SOC
Citation
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, v.129, no.6, pp.1705 - 1716
Abstract
Multiwalled boron carbonitride (BCN) nanotubes with two different structures were synthesized via thermal chemical vapor deposition; one has 10% C atoms homogeneously doped into BN nanotubes (B0.45C0.1N0.45 NTs), and the other has BN layers sheathed with 5-nm-thick C outerlayers (BN-C NTs). The electronic structures of the B, C, and N atoms were thoroughly probed by synchrotron X-ray photoelectron spectroscopy and the X-ray absorption near-edge structure method. The B0.45C0.1N0.45 NTs contain a significant amount of B-C and C-N bonding with a pyridine-like structure (hole structure), which reduces the pi bonding states of the B and N atoms. From the XPS valence band spectrum, the band gap was estimated to be about 2.8 eV. In the BN-C NTs, the C and BN domains are separated without forming the pyridine-like structure. Using the first principles method, we investigated the relative stabilities and electronic structures of the various isomers of the double-walled (12,0)@(20,0) BCN NTs. The C-outerlayer BN nanotube structure is the most stable isomer, when there exist no defects in the tubes with B/N = 1.0 (i.e., graphite-like structure). In addition, a reasonable model, which is characterized by the motives consisted of three pyridine-like rings around a hollow site, is presented for the local structure of C atoms in the B0.45N0.45C0.1 NTs. A considerable decrease of the band gap due to the 10% C doping was predicted, which was consistent with the experimental results.
Keywords
B-C-N; BORON CARBONITRIDE NANOTUBES; CHEMICAL-VAPOR-DEPOSITION; BEAM-ASSISTED EVAPORATION; ALIGNED BXCYNZ NANOTUBES; THIN-FILMS; SUBSTITUTION-REACTION; ELECTRONIC-STRUCTURE; SANDWICH COMPLEXES; NITRIDE NANOTUBES; B-C-N; BORON CARBONITRIDE NANOTUBES; CHEMICAL-VAPOR-DEPOSITION; BEAM-ASSISTED EVAPORATION; ALIGNED BXCYNZ NANOTUBES; THIN-FILMS; SUBSTITUTION-REACTION; ELECTRONIC-STRUCTURE; SANDWICH COMPLEXES; NITRIDE NANOTUBES; Nanotube; BCN; TEM; simulation; doping
ISSN
0002-7863
URI
https://pubs.kist.re.kr/handle/201004/134649
DOI
10.1021/ja067592r
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KIST Article > 2007
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