（1）光电子器件的智能化设计与传感性能研究

• • [23] Junwen Yu, Yun Liu, Quanwang Niu, Xiangfu Wang*, and Xiaohong Yan*, Visual Piezoresistive Dual-Response Sensor Based on CaZnOS: Mn Mechanoluminescence Materials, Advanced Materials Technologies, 2024, 出版中.....
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  • • [22] Xiaocheng Gu, ZiQing Yu, XiangFu Wang*, Dual-band all-optical logic gates for communication based on coherent control of gold-film stacked metamaterials, Optics Express, 32, 44076-44093, 2024.
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  • [21] Jiqing Cui, Chuang Wang, Hao Wu, Peng Han, Yanyan Bu, Xiangfu Wang*, Intelligent bending photothermal converter based on light-driven PDMS bimorph soft actuator, Sensors and Actuators: A. Physical, 374, 115520, 2024.
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• [20] Xiangjun Liu, Jingxu Shi, Yixuan Wang, Shiyao Sun, Bing Chen*, Xiangfu Wang*,Wide-angle insensitive dual-mode polarization absorber in the mid-infrared based on Fabry-Perot cavity configuration,  Sensors and Actuators: A. Physical, 377,115767, 2024.
  
• [19] Hongyi Gan, Junwen Yu, Xiangfu Wang*, Enhancing Linearity of Light Response in Avalanche Photodiodes by Suppressing Electrode Size Effect, Sensors 24(11), 3366, 2024.
  
• [18] Peng Han, Shihong Liang, Hui Zou*, Xiangfu Wang*, Structure, principle and performance of flexible conductive polymer strain sensors: a review, Journal of Materials Science: Materials in Electronics, 35, 775, 2024.
• [17] Zihan Zhu, Xiangfu Wang*, Refractive index, temperature and pressure three-mode sensing design based on Silver-Nitrogen-Graphene coupled resonators, IEEE Sensors Journal, 24, 8712-8720, 2024. 
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• [16] Quanwang Niu, Junwen Yu, Xiangfu Wang*, Xiaohong Yan*, Flexible multicolor biaxial sensor for strain direction identification based on sandwich-structured mechanoluminescent materials, Optics Express, 31, 34589-34599, 2023.
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• [15] Xiangfu Wang*, Jihong Yu, Yixuan Cui, Wei Li*, Research progress of flexible wearable pressure sensors,  Sensors and Actuators: A. Physical,  330, 112838, 2021. (他引大于100次)
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• [14] Xiangfu Wang*, Chengqian Shen, Chengfeng Zhou, Yanyan Bu, Xiaohong Yan*, Methods, principles and applications of optical detection of metal ions, Chemical Engineering Journal, 417, 129125, 2021.
  
• [13] Jing Wang, Jintang Xu, Xiangfu Wang*, Hyo Jin Seo*, Morphology modification, spectrum, and optical thermometer application of rare earth ions doped α-Ag2WO4, Journal of Luminescence, 224, 117303, 2020.
  
• [12] Jiang Zhao*, Qingling Shi, Yanyan Guo, Xiangfu Wang*, Debo Wang, Furui Tan, Li Jiang, Ying Yu, Flash foam stamp-inspired fabrication of flexible in-plane graphene integrated micro-supercapacitors on paper, Journal of Power Sources, 433, 226703, 2019.
  
• [11] Kai Zhou, Haiyan Zhang, Yuanjian Liu, Yanyan Bu, Xiangfu Wang*, Xiaohong Yan*, Fabrication and optical thermometry of transparent glass ceramics containing Ag@ NaGdF4:Er3+ core-shell nanocrystals, Journal of the American Ceramic Society, 102, 6564–6574, 2019.
  
• [10] Wanjun Sheng, Xiangfu Wang*, Yong Tao, and Xiaohong Yan*, Detecting Variable Resistance by Fluorescence Intensity Ratio Technology, Sensors, 19, 2400, 2019.
  
• [9] Xiangfu Wang*, Ye Wang, Leisheng Jin, Yanyan Bu, X.L. Yang, Xiaohong Yan*, Controlling optical temperature detection of Ca3Al2O6:Yb3+,Er3+ phosphors through doping, Journal of Alloys and Compounds, 773, 393-400, 2019.
  
• • [8] Xiangfu Wang, Ye Wang, Jihong Yu, Yanyan Bu, and Xiaohong Yan*, Modifying phase, shape and optical thermometry of NaGdF4:2%Er3+ phosphors through Ca2+ doping, Optics Express, 26, 21950-21959, 2018. 
    
  • [7] Yemin Wang, Yuanjian Liu, Jianping Shen, Xiangfu Wang*, and Xiaohong Yan*, Controlling optical temperature behaviors of Er3+ doped Sr₂CaWO₆ through doping and changing excitation powers, Optical Materials Express, 8, 1926-1939, 2018.
    
  • [6] Peiqing Cai, Xiangfu Wang*, and Hyo Jin Seo*, Excitation power dependent optical temperature behaviors in Mn4+ doped oxyfluoride Na2WO2F4, Physical Chemistry Chemical Physics, 20, 2028-2035, 2018.
    
  • [5] Xiangfu Wang*, Tongtong Xu, Peiqing Cai, ThiQuynh Vu, Hyo Jin Seo*, Controlled synthesis, multicolor luminescence, and optical thermometer of bifunctional NaYbF4:Nd3+@NaYF4:Yb3+ active-core/active-shell colloidal nanoparticles, Journal of Alloys and Compounds, 691, 530-536, 2017.
    
  • [4] Xiangfu Wang*, Yemin Wang, Yanyan Bu, Xiaohong Yan, Jing Wang, Peiqing Cai, Thiquynh Vu, Hyo Jin Seo*, Influence of doping and excitation powers on optical thermometry in Yb³⁺-Er³⁺ doped CaWO₄, Scientific Reports, 7, 43383, 2017. (他引大于100次)
  • [3] Xiangfu Wang, Qing Liu, Peiqing Cai, Jing Wang, Peiqing Cai, Lin Qin, ThiQuynh Vu, Hyo Jin Seo*, Excitation powder dependent optical temperature behavior of Er3+ doped transparent Sr0.69La0.31F2.31 glass ceramics, Optics Express, 24, 17792-17804, 2016.
    
  • [2] Xiangfu Wang*, Qing Liu, Yanyan Bu, Chun-Sheng Liu, Tao Liu, Xiaohong Yan*, Optical temperature sensing of rare-earth ion doped phosphors, Rsc Advances, 5, 86219- 86236, 2015.  (他引大于640次)
  • [1] Xiangfu Wang, Jin Zheng, Yan Xuan, Xiaohong Yan*, Optical temperature sensing of NaYbF₄:Tm³⁺@SiO₂ core-shell micro-particles induced by infrared excitation, Optics Express 21, 21596-21606, 2013. (他引大于100次)
    

（2）光电器件结构与性能的模拟计算

• [18] Jun Li, Junkang Sun, Yixiao Wang  and  Xiangfu Wang*, Prediction of metastable energy level distribution of D3+(D = Cr, Fe) doped phosphor based on machine learning, Journal of Materials Chemistry C, 12, 10889-10902, 2024. （封面文章）
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• [17]  Rundong Yang, Yun Liu and Xiangfu Wang*,  Metamaterial broadband absorber induced by synergistic regulation of temperature and electric field and its optical switching application,  Sensors, 24(16), 5430, 2024.
• [16] Xiangjun Liu ^†, Jingxu Shi^†, Yixuan Wang, Shiyao Sun and Xiangfu Wang*, Highly tunable light absorber based on topological interface mode excitation of optical Tamm state,  Sensors, 24(17), 5772, 2024.
  
• [15] Zihao Zhu,   Yanyan Bu*  and  Xiangfu Wang*,  Modeling and Admittance Recursive Simulation of Anti-Reflective Coatings for Photothermal Conversion: Synergy between Subwavelength Structures and Gradient Refractive Index Layer, Physical Chemistry Chemical Physics, 26, 19755, 2024.
• [14] Yixuan Wang, Jingxu Shi, Bing Chen*, Xiangfu Wang*, Modeling of the synergistic anti-reflection effect in gradient refractive index films integrated with subwavelength structures for photothermal conversion, Physical Chemistry Chemical Physics, 26, 10850-10867, 2024. 
• [13] Zhipeng Liang, Chunxiao Liu, Yanyan Bu*, Xiangfu Wang*, Simulation on liquid phase sintering of CeO2-CoO ceramic by diffusional Monte Carlo Potts model, Materials Today Communications, 38, 107914, 2024.
• [12] Jie Chen, Tiatian Wang, Xiangfu Wang*, Enhancing light extraction efficiency of GaN LED by combining complex-period photonic crystals with doping, Journal of the American Ceramic Society, 106, 4752-4769, 2023. 
• [11] Hengbin Xu, Xiangfu Wang*, Modeling, Monte Carlo simulation on photon regeneration effects of perovskite FAPbI₃ for photovoltaic applications, Physical Chemistry Chemical Physics, 25, 5869-5877, 2023.
• [10] Bing Wang, Min She, Bo Zhang, Xiangfu Wang*, Modeling and Monte Carlo simulation of photon transmission in glass-packaged WLEDs, Displays, 78, 102431, 2023.

• [9] Tengyu Wang, Keyang Qin, Xiangfu Wang*, Modeling and Monte Carlo simulation on photothermal effect in Gd3Al3Ga2O12 : Ce3+/Y3Al5O12:Cr3+ layered composite ceramic, Journal of the American Ceramic Society, 105, 4071-4088, 2022.

• [8] Kang Duan, Wei Li*, Chen Zhu, Jinze Li, Jie Xu, Xiangfu Wang*, Promoting sensitivity and selectivity of NO2 gas sensor based on (P, N)-doped single-layer WSe2: A first principles study, Results in Physics, 34, 105296, 2022.
• [7] Zhipeng Liang, Yanyan Bu, Xiangfu Wang*, Simulation on in-situ crystal growth of lead-free solder Sn-57Bi alloy, Materials Today Communications, 30, 103161, 2022.