Journal of Inorganic Materials, Volume. 38, Issue 7, 778(2023)
[1] N SAVAGE. Ultraviolet lasers. Nature Photonics, 83(2007).
[2] M LUO, F LIANG, Y SONG et al. M2B10O14F6 (M = Ca, Sr): two noncentrosymmetric alkaline earth fluorooxoborates as promising next-generation deep-ultraviolet nonlinear optical materials. Journal of the American Chemical Society, 3884(2018).
[3] Y SONG, M LUO, N YE. Ultraviolet nonlinear optical crystals in π-conjugated system. Chinese Journal of Structural Chemistry, 105(2020).
[6] Y LIU, Z LIN, Y LI et al. Nonpolar Na10Cd(NO3)4(SO3S)4 exhibits a large second-harmonic generation. CCS Chemistry, 526(2021).
[7] H TIAN, C LIN, X ZHAO et al. Design of a new ultraviolet nonlinear optical material KNO3SO3NH3 exhibiting an unexpected strong second harmonic generation response. Materials Today Physics, 100849(2022).
[8] M MUTALIPU, M ZHANG, H WU et al. Ba3Mg3(BO3)3F3 polymorphs with reversible phase transition and high performances as ultraviolet nonlinear optical materials. Nature Communications, 3089(2018).
[9] S ZHAO, P GONG, L BAI et al. Beryllium-free Li4Sr(BO3)2 for deep-ultraviolet nonlinear optical applications. Nature Communications, 4019(2014).
[10] G ZOU, C LIN, H JO et al. Pb2BO3Cl: a tailor-made polar lead borate chloride with very strong second harmonic generation. Angewandte Chemie International Edition, 12078(2016).
[11] H YU, N Z KOOCHER, J RONDINELLI et al. Pb2BO3I: a borate iodide with the largest second-harmonic generation (SHG) response in the KBe2BO3F2 (KBBF) family of nonlinear optical (NLO) materials. Angewandte Chemie International Edition, 6100(2018).
[12] M LUO, Y SONG, F LIANG et al. Pb2BO3Br: a novel nonlinear optical lead borate bromine with a KBBF-type structure exhibiting strong nonlinear optical response. Inorganic Chemistry Frontiers, 916(2018).
[14] T TRAN, J HE, J M RONDINELLI et al. RbMgCO3F: a new beryllium-free deep-ultraviolet nonlinear optical material. Journal of the American Chemical Society, 10504(2015).
[16] P SHAN, T SUN, H CHEN et al. Crystal growth and optical characteristics of beryllium-free polyphosphate, KLa(PO3)4, a possible deep-ultraviolet nonlinear optical crystal. Scientific Reports, 25201(2016).
[19] J CHEN, L XIONG, L CHEN et al. Ba2NaClP2O7: unprecedented phase matchability induced by symmetry breaking and its unique fresnoite-type structure. Journal of the American Chemical Society, 14082(2018).
[21] X DONG, L HUANG, C HU et al. CsSbF2SO4: an excellent ultraviolet nonlinear optical sulfate with a KTiOPO4 (KTP)-type structure. Angewandte Chemie International Edition, 6528(2019).
[22] F HE, Y DENG, X ZHAO et al. RbSbSO4Cl2: an excellent sulfate nonlinear optical material generated due to the synergistic effect of three asymmetric chromophores. Journal of Materials Chemistry C, 5748(2019).
[23] F HE, Q WANG, C HU et al. Centrosymmetric (NH4)2SbCl(SO4)2 and non-centrosymmetric (NH4)SbCl2(SO4): synergistic effect of hydrogen-bonding interactions and lone-pair cations on the framework structures and macroscopic centricities. Crystal Growth & Design, 6239(2018).
[26] Y LI, C YIN, X YANG et al. A nonlinear optical switchable sulfate of ultrawide bandgap. CCS Chemistry., 2298(2020).
[27] Y LI, J LUO, X JI et al. A short-wave UV nonlinear optical sulfate of high thermal stability. Chinese Journal of Structural Chemistry, 485(2020).
[29] Y HAN, X ZHAO, F XU et al. HgSO4: an excellent mid-infrared sulfate nonlinear optical crystal with wide band gap and strong second harmonic generation response. Journal of Alloys and Compounds, 163727(2022).
[30] B BENGT. The crystal structures of Tl3(Hg(SO4)2)(HgSO4Cl) and Rb3(Hg(SO4)2)(HgSO4Cl). Acta Chemica Scandinavica, 241(1976).
[32] W KOHN. Reviews of Modern Physics, 1253(1999).
[36] J P PERDEW, K BURKE, M ERNZERHOF. Generalized gradient approximation made simple. Physical Review Letters, 1396(1997).
Get Citation
Copy Citation Text
Yunxia SONG, Yinglei HAN, Tao YAN, Min LUO.
Category:
Received: Nov. 9, 2022
Accepted: --
Published Online: Dec. 28, 2023
The Author Email: YAN Tao (yantao@fjirsm.ac.cn), LUO Min (lm8901@fjirsm.ac.cn)