[1] 李凌燕,李 嫚,李 雷,等.基于咪唑离子液体的锰(Ⅱ)配合物的合成、晶体结构及发光性能[J].无机化学学报,2019,35(12):2275-2283. LI L Y, LI M, LI L, et al. Synthesis, crystal structures and photophysical properties of manganese(Ⅱ) complexes based on imidazole ionic liquids[J]. Chinese Journal of Inorganic Chemistry, 2019, 35(12): 2275-2283(in Chinese). [2] ZHANG Y, LIAO W Q, FU D W, et al. The first organic-inorganic hybrid luminescent multiferroic: (pyrrolidinium)MnBr3[J]. Advanced Materials, 2015, 27(26): 3942-3946. [3] PITULA S, MUDRING A V. Synthesis, structure, and physico-optical properties of manganate(II)-based ionic liquids[J]. Chemistry-A European Journal, 2010, 16(11): 3355-3365. [4] BORTOLUZZI M, CASTRO J, ENRICHI F, et al. Green-emitting manganese (II) complexes with phosphoramide and phenylphosphonic diamide ligands[J]. Inorganic Chemistry Communications, 2018, 92: 145-150. [5] ARUNKUMAR P, GIL K H, WON S, et al. Colloidal organolead halide perovskite with a high Mn solubility limit: a step toward Pb-free luminescent quantum dots[J]. The Journal of Physical Chemistry Letters, 2017, 8(17): 4161-4166. [6] MORAD V, CHERNIUKH I, PÖTTSCHACHER L, et al. Manganese(II) in tetrahedral halide environment: factors governing bright green luminescence[J]. Chemistry of Materials, 2019, 31(24): 10161-10169. [7] LI L Y, LI L, LI Q Q, et al. Synthesis, crystal structure and optical property of manganese (II) halides based on pyridine ionic liquids with high quantum yield[J]. Transition Metal Chemistry, 2020, 45(6): 413-421. [8] XU L J, LIN X S, HE Q Q, et al. Highly efficient eco-friendly X-ray scintillators based on an organic manganese halide[J]. Nature Communications, 2020, 11: 4329. [9] HARDHIENATA H, AHMAD F, ARRAMEL, et al. Optical and X-ray scintillation properties of X2MnCl4 (X=PEA, PPA) perovskite crystals[J]. Journal of Physics D: Applied Physics, 2020, 53(45): 455303. [10] 卓志昊,郑燕升,李军生.N-乙基吡啶溴盐离子液体分子结构和光谱性质的量子化学计算[J].计算机与应用化学,2011,28(6):790-792. ZHUO Z H, ZHENG Y S, LI J S. Quantum chemical calculation of structure and spectrum property of N-ethylpyridinium bromide ionic liquid[J]. Computers and Applied Chemistry, 2011, 28(6): 790-792(in Chinese). [11] PALION-GAZDA J, MACHURA B, KLEMENS T, et al. Pseudohalide manganese(II) complexes of 2-hydroxymethylbenzimidazole-synthesis, spectroscopy, X-ray structure and magnetic properties[J]. Polyhedron, 2014, 81: 465-474. [12] SHELDRICK G M. SHELXS-97, program for the solution of crystal structures[M]. A Short History of SHELX, 2008, 64: 112-122. [13] SHELDRICK G M. SHELXL-97, program for crystal structure refinement[M]. 1997. [14] JIANG C, ZHONG N, LUO C, et al. (Diisopropylammonium)2MnBr4∶a multifunctional ferroelectric with efficient green-emission and excellent gas sensing properties[J]. Chemical Communications (Cambridge, England), 2017, 53(44): 5954-5957. [15] WANG Z, BAI F Y, XING Y H, et al. Two new 3D lanthanide coordination polymers with benzenesulfonic and adipic acids: synthesis, structure and luminescent properties[J]. Zeitschrift Für Anorganische Und Allgemeine Chemie, 2010, 636(8): 1570-1575. [16] BAI X W, ZHONG H Z, CHEN B K, et al. Pyridine-modulated Mn ion emission properties of C10H12N2MnBr4 and C5H6NMnBr3 single crystals[J]. The Journal of Physical Chemistry C, 2018, 122(5): 3130-3137. [17] JIANG C L, FU H M, HAN Y, et al. Tuning the crystal structure and luminescence of pyrrolidinium manganese halides via halide ions[J]. Crystal Research and Technology, 2019, 54(3): 1800236. [18] RIDLEY J E, ZERNER M C. Triplet states via intermediate neglect of differential overlap: benzene, pyridine and the diazines[J]. Theoretica Chimica Acta, 1976, 42(3): 223-236. [19] WANG Z X, LI P F, LIAO W Q, et al. Structure-triggered high quantum yield luminescence and switchable dielectric properties in manganese(II) based hybrid compounds[J]. Chemistry-an Asian Journal, 2016, 11(7): 981-985. [20] WEI Y L, JING J, SHI C, et al. High quantum yield and unusual photoluminescence behaviour in tetrahedral manganese(Ⅱ) based on hybrid compounds[J]. Inorganic Chemistry Frontiers, 2018, 5(10): 2615-2619. [21] STEEMERS F J, VERBOOM W, REINHOUDT D N, et al. New sensitizer-modified calix[4]arenes enabling near-UV excitation of complexed luminescent lanthanide ions[J]. Journal of the American Chemical Society, 1995, 117(37): 9408-9414. [22] DOERING J P, MOORE J H Jr. Observation of a singlet—triplet transition in gas phase pyridine by ion and electron impact[J]. The Journal of Chemical Physics, 1972, 56(5): 2176-2178. [23] CHEN J, ZHANG Q, ZHENG F K, et al. Intense photo-and tribo-luminescence of three tetrahedral manganese(II) dihalides with chelating bidentate phosphine oxide ligand[J]. Dalton Transactions, 2015, 44(7): 3289-3294. [24] RODRíGUEZ-LAZCANO Y, NATAF L, RODRíGUEZ F. Electronic structure and luminescence of [(CH3)4 N]2MnX4(X=Cl, Br)crystals at high pressures by time-resolved spectroscopy: pressure effects on the Mn-Mn exchange coupling[J]. Physical Review B, 2009, 80(8): 085115. [25] 沈 琦,陈红兵,王金浩,等.坩埚下降法生长钨酸镉晶体的闪烁性能[J].人工晶体学报,2012,41(4):844-848+852. SHEN Q, CHEN H B, WANG J H, et al. Scintillation property of cadium tungstate single crystal grown by vertical bridgman technique[J]. Journal of Synthetic Crystals, 2012, 41(4): 844-848+852(in Chinese). [26] CHENG X H, JING L, YUAN Y, et al. Centimeter-size square 2D layered Pb-free hybrid perovskite single crystal (CH3NH3)2MnCl4 for red photoluminescence[J]. Cryst Eng Comm, 2019, 21(27): 4085-4091. |