刘静，青岛科技大学副教授，博士/硕士生导师。长期致力于氢能及燃料电池研究，针对燃料电池非贵金属电催化剂本征活性低、服役稳定性差等关键科学难题，开展从关键材料，核心部件到器件的全链条基础应用研究。研究成果以第一作者或共同通讯作者在Nat. Commun. (1篇)、 Adv. Funct. Mater. (1篇)、ACS Catal. (3篇)、 Appl. Catal. B: Environ. (1篇)、Chem. Eng. J. (4篇) 等能源催化材料领域发表研究论文30余篇，总引用次数1800余次，申请发明专利9件，授权6件；作为项目负责人获批国家自然科学基金青年科学基金项目、面上项目及中国科学院重点实验室开放课题，参与国家自然科学基金地区联合重点项目，国家自然科学基金面上项目，山东省重大科技攻关类课题等多个项目，受邀担任《电化学》《Nano Materials Science》刊物青年编委，多次获得校级教学研究成果二等奖。

• 主要研究方向：

1.  燃料电池及电催化

2.  光电催化

3.  功能纳米材料制备

ORCID ID: https://orcid.org/0000-0002-7891-3163

Research Gate: https://www.researchgate.net/profile/Jing_Liu169

• 承担的科研项目：

      1. 中国科学院燃料电池及复合电能源重点实验室开放课题 2018.10-2019.09，已结题

      2. 国家自然基金青年项目 2019.01-2021.12，已结题

      3. 国家自然科学基金面上项目 2022.01-2026.12，在研

• 已发表文章（#共同一作，*通讯作者）：

2024年

54. J. Gao, W. Yu, J. Liu*, L. Qin, H. Cheng, X. Cui, L. Jiang*, Regulation of hydrogen binding energy via oxygen vacancy enables an efficient trifunctional Rh-Rh2O3 electrocatalyst for fuel cells and water splitting, Journal of Colloid and Interface Science, (2024) doi.org/10.1016/j.jcis.2024.03.095

53. L. Xiao, W. Yu, J. Liu*, S. Luan, S. Li, X. Cui, L. Jiang*, Boosting Oxygen Reduction Reaction via N, S-Doped Carbon Shell-Encapsulated Fe5C2: Leveraging Lateral and Axial Synergy, ACS Sustainable Chemistry & Engineering, (2024) doi.org/10.1021/acssuschemeng.4c00286

52. W. Yu, J. Liu*, H. Hu, Z. He, X. Cui, L. Jiang*, Optimizing Nickel Orbital Occupancy via Co‐Modulation of Core and Shell Structures to Accelerate Alkaline Hydrogen Electro‐Oxidation Reaction, Advanced Functional Materials, n/a (2024) 2315062.

51. L. Xiao, W. Yu, J. Liu*, S. Luan, W. Pei, X. Cui, L. Jiang*, Co3Fe7/CoCx nanoparticles encapsulated in nitrogen-doped carbon nanotubes synergistically promote the oxygen reduction reaction in Zn-air batteries, Journal of Colloid and Interface Science, 655 (2024) 427-438.

 2023年

50. Liu. J, Gao. J, Yu. W, Ren H., Cui X., Chen X., Jiang L., A unique sandwich-structured Ru-TiO/TiO2@NC as an efficient bi-functional catalyst for hydrogen oxidation and hydrogen evolution reactions, Chemical Engineering Journal, 472 (2023) 145009.

49. Zhang, B.;  Liu, J.*;  Yu, W.;  Gao, J.;  Cui, X.; Jiang, L.*, Steering Pt surface via N-doped carbon layer to highly active CO-tolerant hydrogen oxidation reaction catalyst in alkaline media. Applied Surface Science 2023, 614, 156131.

48. Liu, J.;  Zhang, B.;  Fo, Y.;  Yu, W.;  Gao, J.;  Cui, X.;  Zhou, X.; Jiang, L., Electrochemically induced dilute gold-in-nickel nanoalloy as a highly robust electrocatalyst for alkaline hydrogen oxidation reaction. Chemical Engineering Journal 2023, 142692.

47. Liu, J.;  Zhang, B.;  Fo, Y.;  Gao, J.;  Yu, W.;  Ren, H.;  Cui, X.;  Zhou, X.; Jiang, L., Unique Ru nanoclusters confined in carbon molecular sieve coatings with tailoring sub-4 Å ultramicro pores as a highly efficient and CO-tolerant hydrogen oxidation electrocatalyst. Chemical Engineering Journal 2023, 468, 143438.

46. Liu, J.;  Wang, J.;  Fo, Y.;  Zhang, B.;  Molochas, C.;  Gao, J.;  Li, W.;  Cui, X.;  Zhou, X.;  Jiang, L.; Tsiakaras, P., Engineering of unique Ni-Ru nano-twins for highly active and robust bifunctional hydrogen oxidation and hydrogen evolution electrocatalysis. Chemical Engineering Journal 2023, 454, 139959.

45. Zhao, Y.;  Song, S.;  Liu, J.;  Cui, X.; Jiang, L., Functionalized black liquor-derived porous carbon as an efficient electrocatalyst for hydrogen peroxide production. Journal of Alloys and Compounds 2023, 963, 171264.

 2022年

44. Liu, J.;  Wang, J.;  Zhang, L.;  Fan, C.;  Zhou, X.;  Zhang, B.;  Cui, X.;  Wang, J.;  Cheng, Y.;  Sun, S.; Jiang, L., Axial ligand promoted phosphate tolerance of an atomically dispersed Fe catalyst towards the oxygen reduction reaction. Journal of Materials Chemistry A 2022, 10 (31), 16722-16729.

43. Liu, J.;  Wang, J.;  Gao, J.;  Sun, Z. Y.;  Fan, C. H.;  Cui, X. J.; Jiang, L. H., Few-layered nitrogen-doped graphene wrapped three-dimensional titanium oxide flower as a robust support for Pt nanoparticles in catalyzing oxygen reduction reaction. Journal of Alloys and Compounds 2022, 907, 164435.

42. Gao, J.;  Sun, Z.;  Wang, J.;  Fan, C.;  Cui, X.;  Liu, J.*; Jiang, L.*, An interconnected-graphene enveloped titanium dioxide flower as a robust support for proton exchange membrane fuel cells. Dalton Trans 2022, 51 (23), 9167-9174.

41. Bi, X. L.;  Bai, Q.;  Liang, M. M.;  Yang, D. Q.;  Li, S. H.;  Wang, L. N.;  Liu, J.;  Yu, W. W.;  Sui, N.; Zhu, Z. L., Silver Peroxide Nanoparticles for Combined Antibacterial Sonodynamic and Photothermal Therapy. Small 2022, 18 (2), 2104160.

2021年

40. Xie, X.;  Feng, J.;  Cui, X.;  Liu, J.*;  Jiang, L.*; Dong, L., Plasmon-Enhanced Photocatalysis Coupling Electrocatalysis Steering Methanol Oxidation toward a CO-Free Dominant Pathway. ACS Catalysis 2021, 11 (21), 13160-13168.

39. Jie Wang, Jing Liu*,   Boyang Zhang,   Jie Gao,   Guangbo Liu,   Xuejing Cui,   Jin-Xun Liu*  and  Luhua Jiang* , Amine-Ligand Modulated Ruthenium Nanoclusters as a Superior Bi-functional Hydrogen Electrocatalyst in Alkaline Media. J. Mater. Chem. A, 2021, 9 (40), 22934-22942

38. Wang, J.;  Dong, X.;  Liu, J.*;  Li, W.;  Roling, L. T.;  Xiao, J. *; Jiang, L*., Ultrafine Nickel Nanoparticles Encapsulated in N-Doped Carbon Promoting Hydrogen Oxidation Reaction in Alkaline Media. ACS Catalysis 2021, 7422-7428. （通讯作者）

37. Wang, G.;  Xie, X.;  Cui, X.;  Liu, J.; Jiang, L., Photoinduced Pt/BiVO4/Bi2O3 Heterostructures for Methanol Oxidation and New Insights on the Photo-/Electrocatalysis Coupling Mechanism. ACS Sustainable Chemistry & Engineering 2021, 9 (11), 4271-4281.

36. Liu, J.;  Liu, L.;  Li, S.;  Kang, Q.;  Zhang, R.; Zhu, Z., Self-assembled nanogels of luminescent thiolated silver nanoclusters and chitosan as bactericidal agent and bacterial sensor. Materials Science and Engineering: C 2021, 118, 111520.

35. Liu, J.;  Li, X.;  Liu, L.;  Bai, Q.;  Sui, N.; Zhu, Z., Self-assembled ultrasmall silver nanoclusters on liposome for topical antimicrobial delivery. Colloids and Surfaces B: Biointerfaces 2021, 200, 111618. 

34. Liu, J.;  Fan, C.;  Xie, X.; Jiang, L., Recent Progress on Photo-Promoted Alcohol Electrooxidation for Fuel Cells. Energy Technology 2021, 9 (1), 2000842. 

33. Liu, J.;  Fan, C.;  Liu, G.; Jiang, L., MOF-derived dual metal (Fe, Ni) –nitrogen–doped carbon for synergistically enhanced oxygen reduction reaction. Applied Surface Science 2021, 538, 148017. 

32. Liu, G.;  Wang, M.;  Xu, Y.;  Wang, X.;  Li, X.;  Liu, J.;  Cui, X.; Jiang, L., Porous CoP/Co2P heterostructure for efficient hydrogen evolution and application in magnesium/seawater battery. Journal of Power Sources 2021, 486, 229351.

31. Chen, D.;  Cao, W.;  Liu, J.;  Wang, J.;  Li, X.; Jiang, L., Filling the in situ-generated vacancies with metal cations captured by C−N bonds of defect-rich 3D carbon nanosheet for bifunctional oxygen electrocatalysis. Journal of Energy Chemistry 2021, 59, 47-54.

30. Liu, J.;  Liu, L.;  Li, S.;  Kang, Q.;  Zhang, R.; Zhu, Z., Self-assembled nanogels of luminescent thiolated silver nanoclusters and chitosan as bactericidal agent and bacterial sensor. Mater Sci Eng C Mater Biol Appl 2021, 118, 111520.

29. Liu, J.;  Liang, M.;  Bi, X.;  Cao, S.;  Zhang, C.; Zhu, Z., Study of the adherence of Escherichia coli 83972 on α-biphenyl mannoside-presenting PDMS surfaces. Colloid and Interface Science Communications 2021, 45, 100507.

28. Li, X.;  Liang, M.;  Jiang, S.;  Cao, S.;  Li, S.;  Gao, Y.;  Liu, J.;  Bai, Q.;  Sui, N.; Zhu, Z., Pomegranate-Like CuO2@SiO2 Nanospheres as H2O2 Self-Supplying and Robust Oxygen Generators for Enhanced Antibacterial Activity. ACS Applied Materials & Interfaces 2021, 13 (19), 22169-22181.

 2020年

27.  Shen, G#.;  Liu, J. #;  Wu, H. B. #;  Xu, P.;  Liu, F.;  Tongsh, C.;  Jiao, K.;  Li, J.;  Liu, M.;  Cai, M.;  Lemmon, J. P.;  Soloveichik, G.;  Li, H.;  Zhu, J.; Lu, Y., Multi-functional anodes boost the transient power and durability of proton exchange membrane fuel cells. Nature Communications 2020, 11 (1), 1191. 

26. Liu, J.;  Zhu, Y.;  Fan, C.;  Wang, J.;  Du, F.; Jiang, L., Three-Dimensional Porous Fe–N–C Derived from Iron-Citrate-Functionalized Melamine Foam as a Highly Active Oxygen Reduction Catalyst for Zn–Air Batteries. Energy Technology 2020, 8 (6), 2000149. （第一作者）

25. Liu, J.;  Li, X.;  Li, X.; Jiang, L., Janus few layered graphene with asymmetric wettability as anti-flooding cathode supports in proton exchange membrane fuel cells. Progress in Natural Science: Materials International 2020, 30 (6), 846-854. 

24. Liu, J.;  Li, S.;  Liu, L.; Zhu, Z., A fluorous biphase drug delivery system triggered by low frequency ultrasound: controlled release from perfluorous discoidal porous silicon particles. Nanoscale Advances 2020. 

23. Li, Z.;  Wang, X.;  Liu, J.;  Gao, C.;  Jiang, L.;  Lin, Y.; Meng, A., 3D Honeycomb Nanostructure Comprised of Mesoporous N-Doped Carbon Nanosheets Encapsulating Isolated Cobalt and Vanadium Nitride Nanoparticles as a Highly Efficient Electrocatalyst for the Oxygen Reduction Reaction. ACS Sustainable Chemistry & Engineering 2020, 8 (8), 3291-3301.

22. Li, X.;  Jiang, L.;  Liu, J.;  Hua, Q.;  Wang, E.; Xie, G., Size-dependent catalytic activity of cobalt phosphides for hydrogen evolution reaction. Journal of Energy Chemistry 2020, 43, 121-128.

21. Hua, Q.;  Zhou, X.;  Zhang, B.;  Wang, M.;  Liu, J.;  Wang, Y.; Jiang, L., Band Modulation and Interfacial Engineering to Generate Efficient Visible-Light-Induced Bifunctional Photocatalysts. ACS Sustainable Chemistry & Engineering 2020, 8 (7), 2919-2930.

2019年

20. Liu, J.;  Zhu, Y.;  Li, X.;  Du, F.;  Wang, R.; Jiang, L., Three-dimensional Fe, N-doped carbon nanosheets on interconnected carbon skeletons as a highly efficient and stable electrocatalyst for oxygen reduction reaction. Journal of Alloys and Compounds 2019, 788, 1274-1281.

19. Liu, J.;  Zhu, Y.;  Du, F.; Jiang, L., Iron/Nitrogen/Phosphorus Co-Doped Three-Dimensional Porous Carbon as a Highly Efficient Electrocatalyst for Oxygen Reduction Reaction. Journal of The Electrochemical Society 2019, 166 (13), F935-F941. 

18. Liu, J.;  Li, S.;  Fang, Y.; Zhu, Z., Boosting antibacterial activity with mesoporous silica nanoparticles supported silver nanoclusters. Journal of Colloid and Interface Science 2019, 555, 470-479.

17. Liu, J.;  Bao, H.;  Zhang, B.;  Hua, Q.;  Shang, M.;  Wang, J.; Jiang, L., Geometric Occupancy and Oxidation State Requirements of Cations in Cobalt Oxides for Oxygen Reduction Reaction. ACS Applied Materials & Interfaces 2019, 11 (13), 12525-12534. （第一作者）

16. Li, X.;  Liu, J.;  Du, F.;  Peng, H.; Jiang, L., Cations promoting synthesis of self-supported nanoporous silver electrode and its catalytic activity for oxygen reduction reaction. Applied Surface Science 2019, 464, 21-29.

15. Zhao, Q.;  Wei, Y. C.;  Ni, C. J.;  Wang, L. L.;  Liu, B. J.;  Liu, J.;  Zhang, M. Y.;  Men, Y. F.;  Sun, Z. Y.;  Xie, H. M.;  Hu, W.; Lu, Y. F., Effect of aminated nanocrystal cellulose on proton conductivity and dimensional stability of proton exchange membranes. Applied Surface Science 2019, 466, 691-702.

 2018年

14. Liu, Z#.;  Liu, J. #;  Wu, H. B.;  Shen, G.;  Le, Z.;  Chen, G.; Lu, Y., Iron-decorated nitrogen-rich carbons as efficient oxygen reduction electrocatalysts for Zn–air batteries. Nanoscale 2018.

13. Liu, J.; Jiang, L., Electrostatic self-assembly of Pt nanoparticles on hexagonal tungsten oxide as an active CO-tolerant hydrogen oxidation electrocatalyst. International Journal of Hydrogen Energy 2018, 43 (18), 8944-8952.

12. Guo, Z.;  Liu, P.;  Liu, J.;  Du, F.; Jiang, L., Neural Network Inspired Design of Highly Active and Durable N-Doped Carbon Interconnected Molybdenum Phosphide for Hydrogen Evolution Reaction. ACS Applied Energy Materials 2018, 1 (10), 5437-5445.

11. Dang, D.;  Zhao, B. T.;  Chen, D. C.;  deGlee, B. M.;  Qu, C.;  Dai, S. G.;  Zeng, X. Y.;  Liu, J.;  Lu, Y. F.;  Liao, S. J.; Liu, M. L., A bi-functional WO3-based anode enables both energy storage and conversion in an intermediate-temperature fuel cell. Energy Storage Materials 2018, 12, 79-84.

2018年以前

10. Liu, Z.;  Sun, F.;  Gu, L.;  Chen, G.;  Shang, T. T.;  Liu, J.;  Le, Z. Y.;  Li, X. Y.;  Wu, H. B.; Lu, Y. F., Post Iron Decoration of Mesoporous Nitrogen-Doped Carbon Spheres for Efficient Electrochemical Oxygen Reduction. Advanced Energy Materials 2017, 7 (22), 1701154.

9.  Liu, J.;  Jiang, L.;  Zhang, T.;  Jin, J.;  Yuan, L.; Sun, G., Activating Mn3O4 by Morphology Tailoring for Oxygen Reduction Reaction. Electrochimica Acta 2016, 205, 38-44.

8. Jiang, L.;  Tang, Q.;  Liu, J.; Sun, G., Elucidation of oxygen reduction reaction pathway on carbon-supported manganese oxides. Chinese Journal of Catalysis 2015, 36 (2), 175-180.

7. Gu, L.;  Jiang, L.;  Jin, J.;  Liu, J.; Sun, G., Yolk–shell structured iron carbide/N-doped carbon composite as highly efficient and stable oxygen reduction reaction electrocatalyst. Carbon 2015, 82, 572-578.

6. Yuan, L.;  Jiang, L.;  Liu, J.;  Xia, Z.;  Wang, S.; Sun, G., Facile synthesis of silver nanoparticles supported on three dimensional graphene oxide/carbon black composite and its application for oxygen reduction reaction. Electrochimica Acta 2014, 135, 168-174.

5. Tang, Q.;  Jiang, L.;  Liu, J.;  Wang, S.; Sun, G., Effect of Surface Manganese Valence of Manganese Oxides on the Activity of the Oxygen Reduction Reaction in Alkaline Media. ACS Catalysis 2014, 4 (2), 457-463.

4. Liu, J.;  Jiang, L.;  Zhang, B.;  Jin, J.;  Su, D. S.;  Wang, S.; Sun, G., Controllable Synthesis of Cobalt Monoxide Nanoparticles and the Size-Dependent Activity for Oxygen Reduction Reaction. ACS Catalysis 2014, 4 (9), 2998-3001.

3. Liu, J.;  Jiang, L.;  Tang, Q.;  Wang, E.;  Qi, L.;  Wang, S.; Sun, G., Amide-functionalized carbon supports for cobalt oxide toward oxygen reduction reaction in Zn-air battery. Applied Catalysis B: Environmental 2014, 148–149, 212-220.

2. Wu, Q.;  Jiang, L.;  Tang, Q.;  Liu, J.;  Wang, S.; Sun, G., Activity and stability of the Ni(OH)2MnOx/C composite for oxygen reduction reaction in alkaline solution. Electrochimica Acta 2013, 91, 314-322.

1. Liu, J.;  Jiang, L.;  Tang, Q.;  Zhang, B.;  Su, D. S.;  Wang, S.; Sun, G., Coupling Effect Between Cobalt Oxides And Carbon For Oxygen Reduction Reaction. ChemSusChem 2012, 5 (12), 2315-2318.