[1] YANG J, ZHANG C M, WANG L L, et al. Hydrothermal synthesis and luminescent properties of LuBO3∶Tb3+ microflowers［J］. Journal of Solid State Chemistry, 2008, 181(10): 2672-2680.

[7] REN P, YANG Y, WEN M, et al. Li4Ca2B8O16: a borate with a unique fundamental building block and a short cutoff edge［J］. Inorganic Chemistry, 2020, 59(12): 8396-8403.

[8] YANG Y, DONG X Y, PAN S L, et al. The rubidium barium borate resulting from B7O15 fundamental building block exhibits DUV cutoff edge［J］. Inorganic Chemistry, 2018, 57(21): 13380-13385.

[9] CHEN Z K, ZHANG K W, ZHANG B, et al. Na2SrB16O26: a new borate with independent interpenetrating B-O networks and deep-ultraviolet cutoff edge［J］. Dalton Transactions (Cambridge, England: 2003), 2022, 51(10): 4097-4103.

[10] YANG Y, SU X, PAN S L, et al. Effect of cation substitution on structural transition: synthesis, characterization and theoretical studies of NaCa4B3O9, NaCaBO3, NaSrBO3 and Li4CaB2O6［J］. Physical Chemistry Chemical Physics: PCCP, 2015, 17(39): 26359-26368.

[12] QIU W, FENG X Q, ZHANG H Y, et al. Synthesis and luminescence properties of CaB4O7∶Eu3+ via two-step hydrothermal method［J］. Optik, 2019, 182: 1039-1045.

[13] SUN P P, CHEN L Y, XU L, et al. Hierarchical porous MgBO2(OH) microspheres: hydrothermal synthesis, thermal decomposition, and application as adsorbents for Congo red removal［J］. Chinese Journal of Chemical Engineering, 2018, 26(7): 1561-1569.

[14] HUANG H S, FENG X Q, CHEN T B, et al. Synthesis and luminescence properties of Ca3(BO3)2∶Eu3+ via two-step method［J］. Luminescence: the Journal of Biological and Chemical Luminescence, 2018, 33(4): 692-697.

[15] MO Z J, HAO Z H, YANG Q, et al. Controllable synthesis of the Al4B2O9 nanowhisker and their applications in reinforced polyhydroxyalkanoate composites［J］. RSC Advances, 2016, 6(48): 42627-42632.

[17] GARCIA-VALLES M, ALFONSO P, ARANCIBIA J R H, et al. Mineralogical and thermal characterization of borate minerals from Rio Grande deposit, Uyuni (Bolivia)［J］. Journal of Thermal Analysis and Calorimetry, 2016, 125(2): 673-679.

[19] KIPCAK A S, SENBERBER F T, DERUN E M, et al. Characterization and thermal dehydration kinetics of zinc borates synthesized from zinc sulfate and zinc chloride［J］. Research on Chemical Intermediates, 2015, 41(11): 9129-9143.

[20] ASENSIO M O, YILDIRIM M, SENBERBER F T, et al. Thermal dehydration kinetics and characterization of synthesized potassium borates［J］. Research on Chemical Intermediates, 2016, 42(5): 4859-4878.

[21] ZHANG L, LIU Z H. Preparation of 2MgO·B2O3·1.5H2O nanomaterials and evaluation of their flame retardant properties by a thermal decomposition kinetic method［J］. Journal of Thermal Analysis and Calorimetry, 2017, 129(2): 715-719.

[22] GENG Y J, LIU Z H. Preparation and thermodynamic characterization of 2CaO·B2O3·H2O nanomaterials with enhanced flame retardant properties［J］. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2017, 522: 563-568.

[23] SUN Y P, DU Y X, WANG W Y, et al. Structure of a new compound KBaB5O9 and photoluminescence characteristics of KBaB5O9∶Eu3+［J］. Powder Diffraction, 2007, 22(4): 292-294.

[24] MUTAILIPU M, ZHANG M, DONG X Y, et al. Effects of the orientation of ［B5O11］7- fundamental building blocks on layered structures based on the pentaborates［J］. Inorganic Chemistry, 2016, 55(20): 10608-10616.

[25] LIN F, DONG Y P, PENG J Y, et al. A new acentric borate of K2Ba［B4O5(OH)4］2·10H2O: synthesis, structure and nonlinear optical property［J］. Phase Transitions, 2016, 89(10): 996-1005.

[26] HUANG H S, LIN D H, LIU Z H. Synthesis and thermodynamic properties of K2Ba［B4O5(OH)4］2·8H2O［J］. Journal of Chemical & Engineering Data, 2008, 53(5): 1163-1166.

[28] HUANG H W, HE R, YAO W J, et al. Noncentrosymmetric mixed-cation borate: crystal growth, structure and optical properties of Cs2Ca［B4O5(OH)4］2·8H2O［J］. Journal of Crystal Growth, 2013, 380: 176-181.

[30] LI L Q, SONG Q, LI P, et al. Synthesis, characterization, and thermochemical property of a novel mixed alkali metal borate: NaCs［B10O14(OH)4］［J］. Journal of Thermal Analysis and Calorimetry, 2014, 116(2): 1019-1025.

[31] AYODELE B V, HOSSAIN M A, CHONG S L, et al. Non-isothermal kinetics and mechanistic study of thermal decomposition of light rare earth metal nitrate hydrates using thermogravimetric analysis［J］. Journal of Thermal Analysis and Calorimetry, 2016, 125(1): 423-435.