l 学术论文 [1] Wang, L.; Zhao, N.; Zhu, C.; Chen, L.; Jiang, Y.; Zhou, R.; Liu, Y.; Qu, B.; Hintzen, H. T. Tunable Visible Emission and Persistent Luminescence of BaGa2O4:Cu2+. Chemical Engineering Journal 2024, 483, 149361. [2] L. Wang, C. Wang, Y. Chen, Y. Jiang, L. Chen, J. Xu, B. Qu, H.T. Hintzen, Red-Emitting SrGa2O4:Cu2+ Phosphor with Super-Long Persistent Luminescence, Chem. Mater., 34 (2022) 10068-10076. [3] B. Qu, M. Liu, R. Zhou, Y. Jiang, L. Wang*, The predictability of the ground state of 3dn transition metal ion as luminescent centers in the tetrahedral sites in inorganic compounds, J. Lumin., 247 (2022) 118919. [4] Wang, L.; Zhao, J.; Zhao, N.; Zhou, R.; Qu, B., Quantitative Insights into the Chemical Trend of Four-Coordinated Mn2+ Emission in Inorganic Compounds. Journal of. Luminescence. 2020, 225, 117399. [5] Qu B, Zhou R, Wang L*, Dorenbos P*. How to predict the location of the defect levels induced by 3d transition metal ions in octahedral sites of aluminate phosphors [J]. J Mater Chem C, 2019, 7(1): 95 -103. [6] Wang L, Zhang J, Qu B*, Wu Q, Zhou R, Li D, Zhang B, Ren M, Zeng X C*. Mechanistic insights into tunable luminescence and persistent luminescence of the full-color-emitting BCNO phosphors [J]. Carbon, 2017, 122: 176-184. [7] Qu B, Zhang B, Wang L*, Zhou R, Zeng X C*, Li L. Persistent Luminescence Hole-Type Materials by Design: Transition-Metal-Doped Carbon Allotrope and Carbides [J]. ACS Appl Mater Interfaces, 2016, 8(8): 5439-5444. [8] Qu B, Zhang B, Wang L*, Zhou R*, Zeng X C*. Mechanistic Study of the Persistent Luminescence of CaAl2O4:Eu,Nd [J]. Chem Mater, 2015, 27(6): 2195-2202. [9] Xu Y D, Wang D, Wang L*, Ding N, Shi M, Zhong J G, Qi S. Preparation and luminescent properties of a new red phosphor (Sr4Al14O25:Mn4+) for white LEDs [J]. J Alloys Compd, 2013, 550(0): 226-230. [10] Wang L, Dai Z, Zhou R,Qu B*, Zeng X C*. Understanding the quenching nature of Mn4+ in wide band gap inorganic compounds: design principles for Mn4+ phosphors with higher efficiency [J]. Phys Chem Chem Phys, 2018, 20(25): 16992-16999. [11]Xiong, J.; Qu, B.; Zhou, R.; Wang, L*. Long Persistent Self-Activated Luminescence Enhanced by Cd2+ in CaGa4O7 for Optical Information Storage. Optical Materials 2025, 158, 116457. [12 Chen, Y.; Xiong, J.; Cheng, W.; Dai, P.; Wang, L.; Qu, B. The Gastric Acid Acidity Quantitative Evaluation Approach through Luminescence Material BaSO4:V5+. Materials Today Communications 2024, 39, 108720. https://doi.org/10.1016/j.mtcomm.2024.108720. [13] J. Ni, Y. Chen, B. Qu, L. Wang*, The experimental and theoretical research on the near infrared luminescent property of KAl11O17:Fe3+ and RbAl11O17:Fe3+, Optical Materials: X, 16 (2022) 100212. [14] Wang, L.; Liu, K.; Wang, J.; Zhao, L.; Xu, Y.; Zhou, R.; Chen, L.; Qu, B., Defects Levels and VUV/UV Luminescence of Ce3+ and Eu3+ Doped Chloroapatite Phosphors M5(PO4)3Cl (M = Ca, Sr, Ba). Opt. Mater. 2020, 107, 110014. [15]Xu Y, Wang L*, Qu B*, Li D, Lu J, Zhou R.The role of co-dopants on the luminescent properties of α-Al2O3:Mn4+ and BaMgAl10O17:Mn4+ [J]. J Am Ceram Soc, 2019, 102(5): 2737-2744. [16] Qu B, Wang J, Liu K, Zhou R, Wang L*. Comprehensive Study of the Red Persistent Luminescence Mechanism of Y2O2S: Eu, Ti, Mg [J]. Phys Chem Chem Phys, 2019, 21, 25118-25125 l 授权专利 1、一种Cu离子掺杂镓锗酸盐基绿色长余辉材料及其制备方法ZL202210513890.0 发明专利 已授权 2023年08月18日 2、一种具有胃酸pH值检测功能的发光材料及其制备方法和应用ZL202211545290.9 发明专利 已授权 2023年06月13日 3一种铋离子掺杂硅铝酸盐基蓝紫色发光材料及其制备方法和应用ZL202210555120.2发明专利 2023年08月18日 4、一种铁离子掺杂的铝酸盐基近红外发光材料及其制备方法 202210515407.2 发明专利2023年09月26日 5、一种过流式紫外线消毒杀菌装置 ZL202223548144.X 实用新型专利 2023年4月17 日 6、一种 Cu 离子掺杂的镓酸盐基绿色长余辉材料及其制备方法 202211207418.0 发明专利 2023年12月28 日 7、一种Mn2+掺杂的BCNO基发光材料及其制备方法, 申请日:2017-06-20. (ZL201710161320.9 8、一种铝酸盐基红色荧光材料及其制备方法, 申请日:2011-12-21. ZL201110280307.8 发明专利 |