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Phase Stability of Hexagonal/Cubic Boron Nitride Nanocomposites.

Abhijit BiswasRui XuJoyce Christiansen-SalamehEugene JeongGustavo A AlvarezChenxi LiAnand B PuthirathBin GaoArushi GargTia GrayHarikishan KannanXiang ZhangJacob ElkinsTymofii S PieshkovRobert VajtaiA Glen BirdwellMahesh R NeupaneBradford B PateTony IvanovElias J GarrattPengcheng DaiHanyu ZhuZhiting TianPulickel M Ajayan
Published in: Nano letters (2023)
Boron nitride (BN) is an exceptional material, and among its polymorphs, two-dimensional (2D) hexagonal and three-dimensional (3D) cubic BN (h-BN and c-BN) phases are most common. The phase stability regimes of these BN phases are still under debate, and phase transformations of h-BN/c-BN remain a topic of interest. Here, we investigate the phase stability of 2D/3D h-BN/c-BN nanocomposites and show that the coexistence of two phases can lead to strong nonlinear optical properties and low thermal conductivity at room temperature. Furthermore, spark-plasma sintering of the nanocomposite shows complete phase transformation to 2D h-BN with improved crystalline quality, where 3D c-BN possibly governs the nucleation and growth kinetics. Our demonstration might be insightful in phase engineering of BN polymorph-based nanocomposites with desirable properties for optoelectronics and thermal energy management applications.
Keyphrases
  • room temperature
  • reduced graphene oxide
  • quantum dots
  • quality improvement
  • solid phase extraction