2006.9-2010.7河南科技大学，材料学院，学士
2010.9-2013.6 武汉科技大学，材料与冶金学院，硕士
2013.9-2016.12武汉科技大学，材料与冶金学院，博士

2017.3-2020.6 清华大学，材料学院，博士后
2020.7-2023.6 中国科学院过程工程研究所，材料学部，副研究员
2023.7-2024.6 北京科技大学，金属冶炼基地，特聘副研究员
2024.7-今 北京科技大学，金属冶炼基地，副研究员

1.为建筑材料领域委员会耐火材料技术委员会委员
2. Journal of the American Ceramic Society, Ceramics International等杂志审稿人

1. 耐火材料
2. 多孔陶瓷
3. 固体废弃物绿色应用
4. 陶瓷纤维制备及工业化应用

1. Jingjing Liu, et al. Ultralight corundum-mullite-zirconia composite ceramic foams prepared by triphasic nanoparticle stabilized foams with improved thermal shock resistance. Ceramics International. 2025,51(8): 10543-10550 (SCI, IF=5.532, JCR分区：二区).

2. Jingjing Liu, et al. Highly porous and mechanically robust ceramic foams with self-wrinkled and rough aperture surface via binary colloidal self-assembly of nanoparticle/gelation network. Ceramics International. 2023,49(9):13823-13828 (SCI, IF=5.532, JCR分区：一区).

3. Jingjing Liu, et al. Highly porous alumina cellular ceramics bonded by in-situ formed mullite prepared by gelation-assisted Al2O3–Si particle-stabilized foams. Ceramics International. 2020, 46: 12282-12287. (SCI, IF=5.532, JCR分区: 一区)    

4. Jingjing Liu, et al. Highly porous SiC cellular ceramics for efficient high-temperature PM removal. Ceramics International. 2020, 46: 15249-15254. (SCI, IF=5.532, JCR分区: 一区)

5. Jingjing Liu, et al. Highly porous ZrO2 cellular ceramics with 3D network architecture. Ceramics International. 2020, 46 (6): 7149-7154. (SCI, IF=5.532, JCR分区: 一区)

6. Jingjing Liu, et al. Ultralight and mechanically robust SiC foams with interconnected cellular architecture. Ceramics International. 2020, 46: 17962-17968. (SCI, IF=5.532, JCR分区: 一区)

7. Jingjing Liu, et al. Mechanically robust ZrO2 foams with 3D reticular architecture prepared from chemical-modified ZrO2 powder.Journal of the American Ceramic Society. 2020;103: 4548-4557. (SCI, IF=5.532, JCR分区: 二区)

8. Jingjing Liu, et al. Hierarchical porous ceramics with 3D reticular architecture and efficient flow-through filtration towards high-temperature particulate matter capture. Chemical Engineering Journal. 2019, 362(15): 504-512 (SCI, IF=5.532, JCR分区: 一区)

9. Jingjing Liu, et al. Hierarchical Ceramic Foams with 3D Interconnected Network Architecture for Superior High Temperature Particulate Matter Capture. ACS Applied Materials & Interfaces. 2019, 11:40585-40591. (SCI, IF=5.532, JCR分区: 一区)

10. Jingjing Liu, et al. Optimal design on the high-temperature mechanical properties of porous alumina ceramics based on fractal dimension analysis. Journal of advanced ceramics. 2018, 7(2): 89-98.(获奖论文) (SCI, IF=5.532, JCR分区: 一区)                      

11. Jingjing Liu, et al. Novel design of elongated mullite reinforced highly porous alumina ceramics using carbonized rice husk as pore-forming agent. Ceramics International. 2019, 102 (9): 5576-5586. (SCI, IF=5.532, JCR分区: 一区)

12. Jingjing Liu, et al. Enhanced mechanical properties and decreased thermal conductivity of porous alumina ceramics by optimizing pore structure. Ceramics International. 2018, 44 (11): 13240-13246. (SCI, IF=5.532, JCR分区: 一区)

13. Jingjing Liu et al. A novel approach to fabricate porous alumina ceramics with excellent properties via pore-forming agent combined with sol impregnation technique. Ceramics International. 2018, 44 (14): 16751-16757 (SCI, IF=5.532, JCR分区: 一区)

14. Jingjing Liu, et al. Novel design of alumina foams with 3D reticular architecture for effective high-temperature particulate matter capture. Journal of the American Ceramic Society. 2019, 102 (9): 5576-5586. (SCI, IF=5.532, JCR分区: 二区)

15. Jingjing Liu, et al. Optimal design on the mechanical and thermal properties of porous alumina ceramics based on fractal dimension analysis. International Journal of Applied Ceramic Technology. 2018, 15(3): 643-652. (SCI, IF=5.532, JCR分区: 二区)

16. Yuju Lu, Jingjing Liu*, Bo Ren, et al. Room-temperature gelcasting of alumina with tartaric acid and glutaraldehyde. Ceramics International. 2020, 46 (11): 11432-11435. (SCI, IF=5.532, JCR分区: 一区)

17. Lu Wang, Jingjing Liu*, Jinlong Yang, et al. Novel design of microsphere adsorbent for efficient heavy metals adsorption. International Journal of Applied Ceramic Technology. 2020, 17: 2228-2239. (SCI, IF=5.532, JCR分区: 二区)

18. Bo Ren, Jingjing Liu*, Yali Wang, et al. Highly porous and hierarchical MgAl2O4 ceramics with improved pore connectivity prepared from gelled particle-stabilized foams. Ceramics International. 2019, 45 (14):17489-17494. (SCI, IF=5.532, JCR分区: 一区)

19. Bo Ren, Yali Wang, Jingjing Liu*, et al. Preparation of Al2O3-Si3N4 porous ceramics with a cactus-like architecture for potential filters applications. Ceramics International. 2019, 45(5): 6581-6584. (SCI, IF=5.532, JCR分区: 一区)

20. Bo Ren, Jingjing Liu*, Wenlong Huo, et al. Three-dimensional (3D) flexible nanofibrous network knitting on hierarchical porous architecture, Journal of the American Ceramic Society. 2019, 102(5): 2977-2986. (SCI, IF=4.186, JCR分区: 二区)

21. Xiaoyan Zhang, Wenlong Huo, Jingjing Liu*. Innovative application of PVA hydrogel for the forming of porous Si3N4 ceramics via freeze-thaw technique. Ceramics International. 2018, 44(11): 13409-13413. (SCI, IF=5.532, JCR分区: 一区)

1. 2024-2026年，国家自然科学基金（青年项目），30万，主持；
2. 2023-2026年，中央高校基本科研业务费，30万，主持；
3. 2023.06-2025.06，省部共建耐火材料与冶金国家重点实验室开放基金，5万，主持；
4. 2024.06-2025.06，北京科技大学青年交叉项目，10万，主持

1. 李远兵, 刘静静, 李亚伟，等. 一种禾本科植物结构遗态高硅莫来石及其制备方法;发明专利，ZL 201410457026.9；
2.李远兵, 刘静静, 黄志明, 等. 一种莫来石轻质砖及其制备方法; 发明专利，ZL 201110186601.2；
3. 李远兵, 刘静静, 李亚伟, 等. 一种双层保温钢包内衬;实用新型，ZL201420516708.8

协助指导研究生2名，博士生1名