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Large piezoelectric and elastic properties in B and Sc codoped wurtzite AlN

Huirong Jing, Yao-Wei Wang, Qiuhao Wen, Xiaomeng Cai, Ke Liu, Weimin Li, Lei Zhu, Xin Li, Hong Zhu

2022Journal of Applied Physics17 citationsDOI

Abstract

Balancing the piezoelectric stress coefficient (e33) and the elastic constant (C33) of AlN-based materials is challenging but crucial for its application in bulk acoustic wave resonators. In this work, via first-principles calculations, we demonstrate that e33 and C33 can be simultaneously enhanced by adding boron (B) in the ScxAl1−xN system. Compared with ScxAl1−xN, the large C33 in B0.125Scx−0.125Al1−xN is caused by the shorter and stiffer B–N bonds, and the enhancement of e33 mainly comes from a larger sensitivity of atomic coordinates with respect to the strain (|du/dε|). Further investigation shows that the introduction of B in ScxAl1−xN significantly decreases the ratio of lattice parameter c over a due to the planar coordination preference of bulk BN, which is accompanied by an increased average |du/dε| and e33. Such a negative correlation can be attributed to the fact that |du/dε| of N is proportional to the asymmetry of transversal bond strengths but inversely proportional to the overall average bond strengths around N atoms. Such a bonding character observed in this work could be beneficial to the design of wurtzite materials with large piezoelectric coefficients and high elastic constants.

Topics & Concepts

Wurtzite crystal structurePiezoelectricityMaterials scienceLattice constantPlanarCondensed matter physicsResonatorBoron nitrideComposite materialOptoelectronicsZincPhysicsOpticsComputer graphics (images)DiffractionComputer scienceMetallurgyAcoustic Wave Resonator TechnologiesMetal and Thin Film MechanicsFerroelectric and Piezoelectric Materials
Large piezoelectric and elastic properties in B and Sc codoped wurtzite AlN | Litcius