Abstract
The structural, electronic, optical, and vibrational properties of B3N3H6 have been calculated by means of the first-principles density functional theory (DFT) calculations within the generalized gradient approximation (GGA) and the local density approximation (LDA). The calculated structural parameters of B3N3H6 are in good agreement with experimental data. The obtained band structure of B3N3H6 shows that it has an indirect band gap with 5.007eV, indicating that it presents insulation characteristic. The total and partial density of states (DOS) of B3N3H6 are given, which tell us the states of the orbital occupation. With the band structure and density of states, we have analyzed the optical properties including the complex dielectric function, refractive index, absorption, conductivity, loss function, and reflectivity. By the contrast, it is found that optical anisotropy is observed in the (001) direction and (100) direction. Moreover, the vibrational properties have been obtained and analyzed, showing that B3N3H6 is dynamically stable due to that there is no imaginary frequency. The frequencies associating with the vibrations are given, which show that B3N3H6 has a low mechanical modulus and thermal conductivity.
Highlights
Borazine (B3N3H6), which is generally introduced in textbooks as "inorganic benzene" under aspects of the isoelectronic relationship [1], is an ideal precursor for boron nitride materials because it only contains elements of boron, nitrogen and hydrogen [2]
The electronic, optical and vibrational properties of B3N3H6 have been calculated by means of firstprinciples density functional theory (DFT) calculations within the generalized gradient approximation (GGA) and the local density approximation (LDA)
The crystal mode of B3N3H6 is shown in Fig. 1 after structural optimization, it is an equilibrium crystal structure of Borazine
Summary
Borazine (B3N3H6), which is generally introduced in textbooks as "inorganic benzene" under aspects of the isoelectronic relationship [1], is an ideal precursor for boron nitride materials because it only contains elements of boron, nitrogen and hydrogen [2]. It has been used as the precursor for preparation of both boron nitride ceramic matrix composites by PIP and boron nitride coatings by CVD [3]. Our purpose is to calculate the electronic structure, optical and vibrational properties of B3N3H6 by using the first-principles density functional theory
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