Influence of pressure on chemical vapor deposition of boron nitride from BCl3/NH3/H2 gas mixtures

Boron nitride (BN) was synthesized from BCl₃/NH₃/H₂ precursor mixtures via chemical vapor deposition, with a focus on the influence of the total partial pressure of BCl₃, NH₃, and H₂ (p_BCl3+NH3+H2) on the surface deposition rate. The surface deposition rate of BN initially increased and then decreased with increasing p_BCl3+NH3+H2, implying that the deposition process transitioned from surface reaction control to mass transfer control. BN deposition from BCl₃ and NH₃ was mainly attributable to several intermediate gaseous products containing B, N, Cl, and H, such as Cl₂BNH₂, ClB(NH₂)₂, and B(NH₂)₃. The microstructures of BN coatings deposited on SiC fibers were also analyzed. The BN coatings were uniformly and evenly deposited on the SiC fiber surfaces at low p_BCl3+NH3+H2 values, whereas excessive p_BCl3+NH3+H2 values afforded coatings containing large grains. The as-prepared BN coatings were stoichiometric but amorphous. Heat treatment substantially improved the texture and crystallinity to afford hexagonal BN.