Optimized Growth of Large-sized LiInSe2 Crystals and the Electric-Elastic Properties

Ning Jia, Shanpeng Wang,* Zeliang Gao,* Qian Wu, Chunlong Li, Xixia Zhang, TongTong Yu, Qingming Lu, and Xutang Tao*

 

Crystal Growth & Design 2017, 17(11): 5875-5880

ABSTRACT: Single crystals of environmental friendly material LiInSe₂ (LISe) with dimensions up to Ф16 mm × 55 mm were grown successfully through a modified vertical Bridgman technique. The quality of the crystal was measured by high resolution X-ray diffraction rocking curve, and a full width at half-maximum (FWHM) for a, b, and c faces are 47″, 46″, 36″, respectively. It indicates that the as-grown crystal is high quality. The complete sets of dielectric, elastic, and piezoelectric constants of LISe crystals at room temperature were obtained by the resonant technique and impedance analysis for the first time. The piezoelectric constants d₂₄ and d₃₃ reached -13.6 pC/N and 8.5 pC/N, respectively. The corresponding electromechanical coupling coefficients k₃₃ is 21%. In addition, the structural distortions and dipole moments of LISe were analyzed in detail. Our results show that LISe is a promising candidate as environmental friendly piezoelectric material.