一、基本信息

王建颖，博士、副教授，入选湖北省省级人才项目。

社会兼职：中国化学会会员

电子邮件：wangjy_2002@163.com

研究领域：新型量子点的合成及性能调控、光子晶体功能材料的设计制备、传感器、太阳能集光器、智能光伏窗户以及LED。

二、教育背景

2007.03-2010.12    中科院长春应用化学研究所，高分子化学与物理专业，理学博士学位

2004.09-2007.03    天津大学，理学院化学系，有机化学专业，理学硕士学位

1998.09-2002.07    兰州大学，物理科学与技术学院，材料化学专业，理学学士学位

三、工作经历

2014.07-至今           888集团官网，888集团电子官网，副教授

2013.03-2014.03     美国马里兰大学帕克分校，化学与生物化学系，访问学者

2011.01-2013.02     华中科技大学，化学与化工学院，博士后

2002.07-2004.08     中科院长春应用化学研究所，高分子工程实验室，研究实习员

四、在研科研项目

1.武汉市知识创新专项：光子晶体基高效率荧光太阳能聚光器的构建与应用研究，2023.06-2025.06，主持；

2.国家自然科学基金面上项目：多重光子带隙荧光聚合物光子晶体薄膜的构建与性能，2017.01-2020.12，已结题；

3.湖北省“楚天学者计划”项目：碳基量子点的设计合成及其在太阳能集光器的应用研究），2017.01-2022.12，已结题；

五、代表性论文

1.C. W. Li, Y. X. Gao, Z. Q. Ren, S. J. Xiong, C. W. Li, J. Wu, J. H. Li, X. B. Wang, J. Y. Wang*. Highly Efficient, Ultra-stable Multi-interlayer Luminescent Solar Concentrators Based on Green and Red-emitting Perovskite Nanocrystal Composites. J. Mater. Chem. C., 2025, 13, 945-953.

2.Z. Q. Ren, X.Y. Deng, C. W. Li, S. J. Xiong, C. W. Li, J. H. Li, L. Wei, J. Y. Wang*. High Loading Cs4PbBr6@PMMA Perovskite Particles for High-transmittance, Ultra-stable and Efficient Luminescent Solar Concentrators. J. Alloys Compd., 2025, 1017, 179033.

3.X. C. Wang, J. Wu, D. Z. Huang, J. H. Yan, C. W. Li, Z. Q. Ren, J. H. Li, X. B. Wang, J. Y. Wang*. Constructing Highly Efficient and Ultra-stable (against Temperature, Humidity and Sunlight) Luminescent Solar Concentrators by Using Dendritic CsPbBr₃@SiO₂ Particles. Chem. Eng. J., 2024, 480, 148139.

4. C. Cai#, M. Z. Wang#, J. Y. Wang*, B. Xu, J. Wang, L. Zhang, W. Xin, L. J. Xue, J. H. Li, X. B. Wang. Efficiently Boosting the Optical Performances of Laminated Luminescent Solar Concentrators via Combing Blue-White Light-Emitting Carbon Dots and Green/Red Emitting Perovskite Quantum Dots. Appl. Surf. Sci., 2023, 609, 155313.

5.Z. P. Ren; J. Y. Wang*, C. L. Xue; M. H. Deng, H. Y. Yu, T. C. Lin, J. Y. Zheng, R. X. He, X. B. Wang, J. H. Li. Ultrahighly Sensitive and Selective Glutathione Sensor Based on Carbon Dot-Functionalized Solution-Gate Graphene Transistor. Anal. Chem., 2023, 95, 17750-17758.

6. W. Xin, J. Y. Wang*, B. Xu, J. Wu, J. Wang, Z. R. Ren, C. Cai, C. L. Xue, J. H. Li, X. B. Wang. Construction of Highly Efficient Carbon Dots-based Polymer Photonic Luminescent Solar Concentrators with Sandwich Structure. Nanotechnology 2022, 33, 305601.

7. J. Wu#, W. Xin#, Y. Wu, Y. Zhan, J. Li, J. Y. Wang*, S. Huang, X. B. Wang*, Solid-state photoluminescent silicone-carbon dots/dendrimer composites for highly efficient luminescent solar concentrators, Chemical Engineering Journal, 2021, 422, 130158.

8. J. Wang, J. Y. Wang*, Y. Xu, J. Jin, W. Xiao, D. Tan, J. H. Li*, T. Mei, L. J. Xue, and X. B. Wang*. Controlled Synthesis of Long-Wavelength Multicolor-Emitting Carbon Dots for Highly Efficient Tandem Luminescent Solar Concentrators. ACS Appl. Energy Mater. 2020, 3, 12230-12237.

9.Q. Fan, J. H. Li*, Y. Zhu, Z. Yang, T. Shen, Y. Guo, L. Wang, T. Mei, J. Y. Wang*, X. B. Wang. Functional Carbon Quantum Dots for Highly Sensitive Graphene Transistors for Cu2+ Ion Detection. ACS Appl. Mater. Interfaces 2020, 12, 4797-4803.

10.L. Wang*, J. Y. Wang*. Self-Assembly of Colloids Based on Microfluidics. Nanoscale 2019, 11, 16708-16722.

11.Y. H. Zhu, J. Y. Wang*, X. Zhu, J. Wang, L. Zhou, J. Li, T. Mei, J. Qian, L. Wei, X. B. Wang*. Carbon Dot-Based Inverse Opal Hydrogels with Photoluminescence: Dual-mode Sensing of Solvents and Metal Ions. Analyst 2019, 144, 5802-5809.

12. J. Y. Wang*, Y. H. Zhu, L. Wang*, Synthesis and Applications of Red-emissive Carbon Dots, Chem. Rec., 2019, 19, 2083-2094.

13.X. Zhu, J. Y. Wang*, Y. Zhu, H. Jiang*, D. Tan, Z. Q. Xu, T. Mei, J. H. Li, L. J. Xue, X. B. Wang*. Green Emitting N,S-co-Doped Carbon Dots for Sensitive Fluorometric Determination of Fe(III) and Ag(I) ions, and as a Solvatochromic Probe. Microchim Acta, 2018, 185, 510.

14. X. L. Jia, T. Zhang, J. Y. Wang, K. Wang, H. Y. Tan, Y. D. Hu, L. B. Zhang, J. T. Zhu*. Responsive Photonic Hydrogel-Based Colorimetric Sensors for Detection of Aldehydes in Aqueous Solution. Langmuir 2018, 34, 3987-3992.

15.J. Y. Wang#, K. Song#, L. Wang, Y. J. Liu, B. Liu, J. T. Zhu*, X. L. Xie, Z. H. Nie*. Formation of Hybrid Core-Shell Microgels Induced by Autonomous Unidirectional Migration of Nanoparticles. Mater. Horiz., 2016, 3, 78-82.

16.L. Wang#, J. Y. Wang#, K. Song*, W. L. Li, Z. Q. Huang, J. T. Zhu, X. J. Han*, Z. H. Nie*. Light-triggered Generation of Multifunctional Gas-filled Capsules On-Demand. J. Mater. Chem. C., 2016, 4, 652-658.

17. X. L. Jia, J. Y. Wang, K. Wang, J. T. Zhu*. Highly Sensitive Mechanochromic Photonic Hydrogels with Fast Reversibility and Mechanical Stability. Langmuir 2015, 31, 8732-8737.

18.X. L. Jia, Y. D. Hu, K. Wang, R. J. Liang, J. Y. Li, J. Y. Wang*, J. T. Zhu*. Uniform Core-Shell Photonic Crystal Microbeads as Microcarriers for Optical Encoding. Langmuir 2014, 30, 11883-11889.

19.J. Y. Wang, W. K. Li, J. T. Zhu*. Encapsulation of Inorganic Nanoparticles into Block Copolymer Micellar Aggregates: Strategies and Precise Localization of Nanoparticles. Polymer 2014, 55, 1079-1096.

20.J. Y. Wang, Y. D. Hu, R. H. Deng, R. J. Liang, W. K. Li, S. Q. Liu, J. T. Zhu*. Multiresponsive Hydrogel Photonic Crystal Microparticles with Inverse-Opal Structure. Langmuir 2013, 29, 8825-8834.

21. J. Y. Wang, J. T. Zhu*. Recent Advances in Spherical Photonic Crystals: Generation and Applications in Optics. Eur Polym J, 2013, 49, 3420-3433.

22. Y. D. Hu, J. Y. Wang, C. N. Li, Q. Wang, H. Wang, J. T. Zhu*, Y. J. Yang*. Janus Photonic Crystal Microspheres: Centrifugation-Assisted Generation and Reversible Optical Property. Langmuir 2013, 29, 15529-15534.

23.J. Y. Wang, Y. D. Hu, R. H. Deng, W. J. Xu, S. Q. Liu, R. J. Liang, Z. H. Nie, J. T. Zhu*. Construction of Multifunctional Photonic Crystal Microcapsules with Tunable Shell Structures by Combining Microfluidic and Controlled Photopolymerization. Lab Chip, 2012, 12, 2795-2798.

24.J. Y. Wang, Y. C. Han*. Tuning the Stop Bands of Inverse Opal Hydrogels with Double Network Structure by Controlling the Solvent and pH. J. Colloid Interface Sci., 2011, 353, 498-505.

25.J. Y. Wang, Y. C. Han*. Tunable Multicolor Pattern and Stop-Band Shift Based on Inverse Opal Hydrogel Heterostructure. J. Colloid Interface Sci., 2011, 357,139-146.

26.J. Y. Wang, Y. C. Han*. Tunable Multi-Responsive Methacrylic Acid Based Inverse Opal Hydrogels by Controlling the Synthesis Conditions. Langmuir 2009, 25, 1855-1864.

27.J. Y. Wang, Y. Cao, Y. Feng, F. Yin, J. P. Gao*. Multiresponsive Inverse-Opal Hydrogels. Adv. Mater., 2007, 19, 3865-3871.

六、专利

1.王建颖，戴广超，王贤保，马鹏常。荧光光子晶体薄膜及其制备方法，专利授权号：ZL201610566360.7，中国专利。

七、获奖及荣誉

1.2024，指导学生获中国国际大学生创新大赛铜奖