Structural, nonlinear optical, and vibration properties of the C40H10 buckybowl modified with nitrogen atoms

Weiqi Li; Xin Zhou; Qiang Wang; Zhuang Xiong; Wei Quan Tian

doi:10.1002/qua.24976

Structural, nonlinear optical, and vibration properties of the C₄₀H₁₀ buckybowl modified with nitrogen atoms

Weiqi Li, Xin Zhou, Qiang Wang, Zhuang Xiong, Wei Quan Tian

School of Chemistry and Moleculai Engineering

Harbin Institute of Technology

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Possible isomers of buckybowl with various N contents (5-15%) were systematically searched with density functional theory (DFT) calculations. N doped buckybowls are predicted to be more stable than the well-known C₄₈N₁₂ azafullerene. The N-doping pattern in buckybowl presents different character from that of fullerenes. Vibrational properties of the heterobuckybowls vary with the relative positions of substituted atoms in buckybowl. The modified electronic properties of buckybowl by N doping lead to enhancement of the second hyperpolarizabilities, which implies that heterobuckybowls could be potential nonlinear optical materials and possible building blocks for molecular electronics and photonic devices.

Original language	English
Pages (from-to)	1553-1560
Number of pages	8
Journal	International Journal of Quantum Chemistry
Volume	115
Issue number	21
DOIs	https://doi.org/10.1002/qua.24976
State	Published - 1 Nov 2015

Keywords

DFT
heterobuckybowl
the second hyperpolarizability

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10.1002/qua.24976

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title = "Structural, nonlinear optical, and vibration properties of the C40H10 buckybowl modified with nitrogen atoms",

abstract = "Possible isomers of buckybowl with various N contents (5-15%) were systematically searched with density functional theory (DFT) calculations. N doped buckybowls are predicted to be more stable than the well-known C48N12 azafullerene. The N-doping pattern in buckybowl presents different character from that of fullerenes. Vibrational properties of the heterobuckybowls vary with the relative positions of substituted atoms in buckybowl. The modified electronic properties of buckybowl by N doping lead to enhancement of the second hyperpolarizabilities, which implies that heterobuckybowls could be potential nonlinear optical materials and possible building blocks for molecular electronics and photonic devices.",

keywords = "DFT, heterobuckybowl, the second hyperpolarizability",

author = "Weiqi Li and Xin Zhou and Qiang Wang and Zhuang Xiong and Tian, {Wei Quan}",

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T1 - Structural, nonlinear optical, and vibration properties of the C40H10 buckybowl modified with nitrogen atoms

AU - Li, Weiqi

AU - Zhou, Xin

AU - Wang, Qiang

AU - Xiong, Zhuang

AU - Tian, Wei Quan

PY - 2015/11/1

Y1 - 2015/11/1

N2 - Possible isomers of buckybowl with various N contents (5-15%) were systematically searched with density functional theory (DFT) calculations. N doped buckybowls are predicted to be more stable than the well-known C48N12 azafullerene. The N-doping pattern in buckybowl presents different character from that of fullerenes. Vibrational properties of the heterobuckybowls vary with the relative positions of substituted atoms in buckybowl. The modified electronic properties of buckybowl by N doping lead to enhancement of the second hyperpolarizabilities, which implies that heterobuckybowls could be potential nonlinear optical materials and possible building blocks for molecular electronics and photonic devices.

AB - Possible isomers of buckybowl with various N contents (5-15%) were systematically searched with density functional theory (DFT) calculations. N doped buckybowls are predicted to be more stable than the well-known C48N12 azafullerene. The N-doping pattern in buckybowl presents different character from that of fullerenes. Vibrational properties of the heterobuckybowls vary with the relative positions of substituted atoms in buckybowl. The modified electronic properties of buckybowl by N doping lead to enhancement of the second hyperpolarizabilities, which implies that heterobuckybowls could be potential nonlinear optical materials and possible building blocks for molecular electronics and photonic devices.

KW - DFT

KW - heterobuckybowl

KW - the second hyperpolarizability

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JF - International Journal of Quantum Chemistry

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Structural, nonlinear optical, and vibration properties of the C₄₀H₁₀ buckybowl modified with nitrogen atoms

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Keywords

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