黄集权，博士，研究员，硕士生导师。2006年入职中国科学院福建物质结构研究所，2012年晋升副研究员，2013年入选中国科学院海西研究院“春苗”青年人才，2015年获聘为硕士研究生导师，2020年晋升研究员。现主要从事面向固态照明和光催化等应用的荧光材料、透明陶瓷、陶瓷粉体和纳米材料的研究。参与多项国家、福建省和中国科学院的重大科研项目，主持过国家自然科学基金青年项目、863计划子课题、福建省自然科学基金面上项目和工业引导性项目，为科技部、省科技厅和工信厅评审专家。
迄今已获授权多项发明专利，并发表论文60多篇，被引用2000多次，H指数为31。其中多篇论文发表在Adv. Mater., Chem. Eng. J., J. Adv. Ceram., J. Alloy Compd., Cryst. Growth Des.和Renew. Energy等高影响力学术期刊上。
2021年荣获福建省直机关优秀党务工作者称号。

1. J. Q. Huang*, Q. F. Huang, J. Chen, Z. H. Deng, Z. G. Liu, W. Guo*, Spectroscopic analysis of Mn4+-activated phosphors: Unveiling the relationship between energy levels and Racah parameters, Journal of Luminescence, 2025, 280, 121046.

2. Y. Q. Lin, J. Q. Huang*, H. S. Xiao, Z. H. Deng, Z. G. Liu, J. Chen, Q. F. Huang, W. Guo*, Eu3+ doped (Y0.75Sc0.25)2O3 red-emitting ceramics with excellent photoluminescence properties for LEDs, Journal of Luminescence, 2024, 269, 120489.

3. Y. Wang, J. Q. Huang*, Y. Q. Lin, Z. H. Deng, Q. F. Huang, Z. G. Liu, J. Chen, W. Guo*, Photoluminescence and persistent luminescence properties of Lu3ScAl4-xGaxO12: Ce3+ ceramics, Journal of Luminescence, 2023, 258, 119824.

4. T. Lv, J. Q. Huang*, C. L. Yang, Y. Wang, Q. F. Huang, J. Chen, W. Guo*, Fundamental luminescence properties of Mn4+ activated Ca14Al10Zn6O35 phosphor, Journal of Materials Chemistry C, 2022, 10, 9773-9785.

5. C. L. Yang, J. Q. Huang*, Q. F. Huang, Z. H. Deng, Y. Wang, X. Y. Li, Z. H. Zhou, J. Chen, Z. G. Liu, W. Guo*, Optical, thermal, and mechanical properties of (Y1-xScx)2O3 transparent ceramics, Journal of Advanced Ceramics, 2022, 11, 901-911.

6. T. Lv, J. Q. Huang*, Z. H. Deng, C. L. Yang, W. Guo*, Mn-doped Ca14Al10(Zn,Mg)6O35: A deep-red oxide phosphor with high photoluminescence quantum yield and thermal stability, Journal of Alloys and Compounds, 2021, 874, 159863.

7. J. Q. Huang*, T. Lv, Q. F. Huang, Z. H. Deng, J. Chen, Z. G. Liu, W. Guo*, Effect of Rh valence state and doping concentration on the structure and photocatalytic H2 evolution in (Nb,Rh) codoped TiO2 nanorods, Nanoscale, 2020, 12, 22082-22090.

8. Q. Q. Hu, G. J. Li, J. R. Li, B. Hu, W. Guo, J. Q. Huang*, X. Y. Huang*, Facile coengineering of oxygen defects and highly active {110} facets in TiO2 nanorods for efficient water splitting, Crystal Growth & Design, 2019, 19, 1680-1688.

9. G. J. Li, J. Q. Huang*, J. Chen, Z. H. Deng, Q. F. Huang, Z. G. Liu, W. Guo*, R. Cao*, Highly active photocatalyst of Cu2O/TiO2 octahedron for hydrogen generation, ACS Omega, 2019, 4, 3392-3397.

10. J. Q. Huang*, G. J. Li, Z. F. Zhou, Y. B. Jiang, Q. Q. Hu, C. B. Xue, W. Guo, Efficient photocatalytic hydrogen production over Rh and Nb codoped TiO2 nanorods, Chemical Engineering Journal, 2018, 337, 282-289.

11. J. Q. Huang*, Y. B. Jiang, G. J. Li, C. B. Xue, W. Guo, Hetero-structural NiTiO3/TiO2 nanotubes for efficient photocatalytic hydrogen generation, Renewable Energy, 2017, 111, 410-415.

12. Q. Q. Hu, J. Q. Huang*, G. J. Li, Y. B. Jiang, H. Lan, W. Guo, Y. G. Cao, Origin of the improved photocatalytic activity of Cu incorporated TiO2 for hydrogen generation from water, Applied Surface Science, 2016, 382, 170-177.

13. J. Q. Huang, Y. G. Cao*, Z. G. Liu, Z. H. Deng, F. Tang, W. C. Wang, Efficient removal of heavy metal ions from water system by titanate nanoflowers, Chemical Engineering Journal, 2012, 180, 75-80.

14. J. Q. Huang, Y. G. Cao*, Z. G. Liu, Z. H. Deng, W. C. Wang, Application of titanate nanoflowers for dye removal: A comparative study with titanate nanotubes and nanowires, Chemical Engineering Journal, 2012, 191, 38-44.

15. J. Q. Huang, P. Y. Du*, L. X. Hong, Y. L. Dong, M. C. Hong, A percolative ferromagnetic-ferroelectric composite with significant dielectric and magnetic properties, Advanced Materials, 2007, 19, 437-440.