[1] Mutailipu M, Zhang M, Yang Z H, et al. Targeting the next generation of deep-ultraviolet nonlinear optical materials: expanding from borates to borate fluorides to fluorooxoborates［J］.Accounts of Chemical Research,2019,52(3): 791-801.

[2] Ok K M. Toward the rational design of novel noncentrosymmetric materials: factors influencing the framework structures［J］.Accounts of Chemical Reseaarch,2016,49(12): 2774-2785.

[3] Kang L, Liang F, Jiang X X, et al. First-principles design and simulations promote the development of nonlinear optical crystals［J］.Accounts of Chemical Research,2020,53(1): 209-217.

[4] Pan Y, Guo S P, Liu B W, et al. Second-order nonlinear optical crystals with mixed anions［J］. Coordination Chemistry Reviews,2018,374,

[5] Guo S P, Chi Y, Guo G C. Recent achievements on middle and far-infrared second-order nonlinear optical materials［J］.Coordination Chemistry Reviews,2017,335: 44-57.

[6] Wu Q, Meng X G, Zhong C, et al. Rb2CdBr2I2: a new IR nonlinear optical material with a large laser damage threshold［J］.Journal of American Chemical Society,2014,136(15): 5683-5686.

[7] Zhang G, Li Y J, Jiang K, et al. A new mixed halides, Cs2HgI2Cl2: molecular engineering for a new nonlinear optical material in the infrared region［J］.Journal of American Chemical Society,2012,134(36): 14818-14822.

[8] Liu H M, Wu Q, Jiang X X, et al. ABi2(IO3)2F5 (A=K, Rb, and Cs): a combination of halide and oxide anionic units to create a large second-harmonic generation response with a wide bandgap［J］.Angewandte Chemie International Edition,2017,56(32): 9492-9496.

[9] Gong P F, Liang F, Kang L, et al. Recent advances and future perspectives on infrared nonlinear optical metal halides［J］.Coordination Chemistry Reviews,2019,380: 83-102.

[10] Chen J, Hu C L, Mao F F, et al. REI5O14 (RE=Y and Gd): promising SHG materials featuring the semicircle-shaped I5O3-14 polyiodate anion［J］.Angewandte Chemie International Edition,2019,58(34): 11666-11669.

[11] Chen J, Hu C L, Zhang X M, et al. CsVO2F(IO3): an excellent SHG material featuring an unprecedented 3D ［VO2F(IO3)］- anionic framework［J］.Angewandte Chemie International Edition,2020,59(13): 5381-5384.

[12] Fan H X, Lin C S, Chen K C, et al. (NH4)Bi2(IO3)2F5: an unusual ammonium-containing metal iodate fluoride showing strong second harmonic generation response and thermochromic behavior［J］.Angewandte Chemie International Edition,2020,59(13): 5268-5272.

[13] Hu C L, Mao J G. Recent advances on second-order NLO materials based on metal iodates［J］.Coordination Chemistry Reviews,2015,288: 1-17.

[14] Li R A, Zhou Z Y, Lian Y K, et al. A2SnS5: a structural incommensurate modulation exhibiting strong second-harmonic generation and a high laser-induced damage threshold (A=Ba, Sr)［J］.Angewandte Chemie International Edition,2020,59(29): 11861-11865.

[15] Wu K, Zhang B B, Yang Z H, et al. New compressed chalcopyrite-like Li2BaMIVQ4 (MIV = Ge, Sn; Q = S, Se): promising infrared nonlinear optical materials［J］.Journal of American Chemical Society,2017,139(42): 14885-14888.

[16] Li C, Yin W L, Gong P F, et al. Trigonal planar ［HgSe3］4- unit: a new kind of basic functional group in IR nonlinear optical materials with large susceptibility and physicochemical stability［J］.Journal of American Chemical Society,2016,138(19): 6135-6138.

[17] Guo S P, Cheng X Y, Sun Z D, et al. Large second harmonic generation (SHG) effect and high laser-induced damage threshold (LIDT) observed coexisting in gallium selenide［J］.Angewandte Chemie International Edition,2019,58(24): 8087-8091.

[18] Lin H, Wei W B, Chen H, et al. Rational design of infrared nonlinear optical chalcogenides by chemical substitution［J］.Coordination Chemistry Reviews,2020,406: 213150.

[19] Wu K, Pan S L. A review on structure-performance relationship toward the optimal design of infrared nonlinear optical materials with balanced performances［J］.Coordination Chemistry Reviews,2018,377: 191-208.

[20] Liang F, Kang L, Lin Z S, et al. Analysis and prediction of mid-IR nonlinear optical metal sulfides with diamond-like structures［J］.Coordination Chemistry Reviews,2017,333: 57-70.

[21] Chen M M, Xue H G, Guo S P, et al. Multinary metal chalcogenides with tetrahedral structures for second-order nonlinear optical, photocatalytic, and photovoltaic applications［J］.Coordination Chemistry Reviews,2018,368: 115-133.

[22] Liu B W, Zeng H Y, Jiang X M, et al. ［A3X］［Ga3PS8］ (A=K,Rb;X=Cl,Br): promising IR nonlinear optical materials exhibiting concurrently strong second-harmonic generation and high laser induced damage thresholds［J］.Chemical Science,2016,7(9): 6273-6277.

[23] Liu B W, Jiang X M, Li B X, et al. Li［LiCs2Cl］［Ga3S6］: a nanoporous framework of GaS4 tetrahedra with excellent nonlinear optical performance［J］.Angewandte Chemie International Edition,2020,59(12): 4856-4859.

[24] Yu P, Zhou L J, Chen L. Noncentrosymmetric inorganic open-framework chalcohalides with strong middle IR SHG and red emission: Ba3AGa5Se10Cl2 (A=Cs, Rb, K)［J］.Journal of American Chemical Society,2012,134(4): 2227-2235.

[25] Xiao J R, Yang S H, Feng F, et al. A review of the structural chemistry and physical properties of metal chalcogenide halides［J］.Coordination Chemistry Reviews,2017,347: 23-47.

[26] Munn R W, Kelly J F, Aicken F M. Analysis of the linear and nonlinear optics of crystals of CHI3, S8 and their 1∶3 complex［J］.Chemical Physics,1999,245(1-3): 227-241.

[27] Kelly J F, Krausz E R, Samoc A, et al. Crystal structure of the second-order nonlinear optical addition complex AsI3?3S8［J］.Australian Journal of Chemistry,2002,55(11): 709-714.

[28] Samoc A, Samoc M, Prasad P N. Second-harmonic generation in the crystalline complex antimony triiodide-sulfur［J］.Journal of the Optical Society of America B,1992,9(10): 1819-1824.

[29] Hawes L L. A semi-bonded compound in the series SnI4-S8［J］.Nature,1962,196: 766-767.

[30] Lu Z T, Sun Z D, Chi Y, et al. Balanced second-order nonlinear optical properties of adducts CHI3?(S8)3 and AsI3?(S8)3: a systematic survey［J］.Inorganic Chemistry,2019,58(7): 4619-4625.

[31] Guo S P, Sun Z D, Chi Y, et al. Adduct-type IR nonlinear-optical crystal SbI3?(S8)3 with a large second-harmonic generation and a high laser-induced damage threshold［J］.Inorganic Chemistry,2018,57(17): 11282-11288.

[32] Guo S P, Chi Y, Xue H G. SnI4?(S8)2: a novel adduct-type infrared second-order nonlinear optical crystal［J］.Angewandte Chemie International Edition,2018,57(36): 11540-11543.

[33] Kurtz S K, Perry T T. A powder technique for the evaluation of nonlinear optical materials［J］.Journal of Applied Physics, 1968,39(8): 3798-3813.

[34] Zhang M J, Jiang X M, Zhou L J, et al. Two phases of Ga2S3: promising infrared second-order nonlinear optical materials with very high laser induced thresholds［J］.Journal of Material Chemistry C,2013,1(31): 4754-4760.

[35] Liu B W, Jiang X M, Zeng H Y, et al. ［ABa2Cl］［Ga4S8］ (A=Rb, Cs): wide-spectrum nonlinear optical materials obtained by polycation-substitution-induced nonlinear optical (NLO)-functional motif ordering［J］.Journal of American Chemistry Society,2020,142(24): 10641-10645.

[36] Guo S P, Guo G C, Wang M S, et al. A facile approach to hexanary chalcogenoborate featuring a 3-D chiral honeycomb-like open-framework constructed from rare-earth consolidating thiogallate-closo-dodecaborate［J］.Chemical Communication,(29): 4366-4368.

[37] Guo S P, Chi Y, Liu B W, et al. Synthesis, crystal structure and second-order nonlinear optical property of a novel pentanary selenide (K3I)［InB12(InSe4)3］［J］.Dalton Transactions,2016,45(25): 10459-10465.

[38] Sun Z D, Chi Y, Xue H G, et al. A series of pentanary inorganic supramolecular sulfides (A3X)［MB12(MS4)3］ (A=K, Cs; X=Cl, Br, I; M=Ga, In, Gd) featuring B12S12 clusters［J］.Inorganic Chemistry Frontiers,2017,4(11): 1841-1847.

[39] Feng K, Kang L, Lin Z S, et al. Noncentrosymmetric chalcohalide NaBa4Ge3S10Cl with large band gap and IR NLO response［J］.Journal of Materials Chemistry C,2014,2(23): 4590-4596.

[40] Li Y Y, Liu P F, Hu L, et al. Strong IR NLO material Ba4MGa4Se10Cl2: highly improved laser damage threshold via dual ion substitution synergy［J］.Advanced Optical Materials,2015,3(7): 957-966.

[41] Li Y Y, Liu P F, Lin H, et al. The effect of indium substitution on the structure and NLO properties of Ba6Cs2Ga10Se20Cl4［J］.Inorganic Chemistry Frontiers,2016,3(7): 952-958.

[42] Liu P F, Li Y Y, Zheng Y J, et al. Tailored synthesis of nonlinear optical quaternary chalcohalides: Ba4Ge3S9Cl2, Ba4Si3Se9Cl2 and Ba4Ge3Se9Cl2［J］.Dalton Transactions,2017,46(8): 2715-2721.