一直从事电化学储能等相关领域研究,在国际能源顶级期刊Nature Nanotechnology, Energy & Environmental Science, Angewandte Chemie International Edition, Advanced Energy Materials, Chem,Applied Catalysis B: Environment and Energy, Nano Energy等发表了SCI论文70余篇,其中包含16篇高被引ESI论文,1篇热点论文,累计被引6500余次,H因子28,申请并授权专利多项。
论文与著作:
主要代表作:
1. Chu, X.; Chen, R.; Chen, H.; Wang, H.; Nie, L.; Xia, H.; Lai, Q.*; Lin, Z.; Ma, M.*; Gong, H.*; Zheng, J.*, Solvation structure manipulation of ester-based electrolyte by acetonitrile additive enables high-capacity and stable K-storage for phenazine-based anode. Chemical Engineering Journal 2024,500, 157457. (中科院1区)
2. Chu, X.; Lin, Y.; Chen, H.; Lai, Q.; Nie, L.; Wang, H.; Chen, R.; Ma, R.; Li, Y.; Lin, Z.; Zheng, J.*, Designing Ester-Ether Hybrid Electrolytes for Aldehyde-based Organic Anode to Achieve Superior K-storage. Applied Catalysis B: Environment and Energy2024, 124507. (中科院1区)
3. Zheng, J.*; Wang, H.; Hu, C.; Chen, H.; Zhang, W.; Chu, X.; Nie, L.; Chen, R.; Long, J.; Lei, M.; Xu, J.*; Lin, Z.; Lai, Q.*, Electrolyte matching design for carboxylic acid-based organic K-storage anode. Chemical Engineering Journal 2024,496, 153833. (中科院1区)
4. Chu, X.; Wang, H.; Hu, C.; Lai, Q.; Nie, L.; Chen, H.; Chen, R.; Lin, Z.; Ma, M.; Zheng, J.*, Unravelling solvation structure and interfacial mechanism of pyrrolidinium-based ionic liquid electrolytes in potassium-ion batteries. Chemical Engineering Journal 2024,488, 150939. (中科院1区)
5. Zheng, J.*; Chen, H.; Chu, X.; Wang, H.; Nie, L.; Chen, R.; Yu, N.; Ma, M.*; Lai, Q.*; Lin, Z., A novel imidazolium-based small molecule matching with unique solvation structure electrolyte for superior K-storage stability. Journal of Power Sources2024,612, 234796. (中科院2区)
6. Nie, L.; Wang, H.; Lai, Q.; Chu, X.; Chen, H.; Hu, C.; Wei, S.; Lin, Y.; Li, Y.; Ma, M.; Zheng, J.*, Electrolyte Modulation in Synergy with a Bi-Based Anode for Efficient K-Storage Properties. ACS Sustainable Chemistry & Engineering 2023,11 (24), 9020-9029. (中科院1区)
7. Chen, N.; Shen, N.; Yi, X.; Pang, Y.; Zheng, J.; Lai, Q.*; Liang, Y.*, Achieving stable K-storage performance of carbon sphere-confined Sb via electrolyte regulation. Journal of Energy Chemistry2023,76, 51-58. (中科院1区)
8. Chen, N.; Shen, N.; Yi, X.; Pang, Y.; Liu, Z.; Chen, H.; Zheng, J.; Lai, Q.*; Liang, Y.*, Solvent modulation strategy for Sb-based anode to achieve stable potassium storage. Chemical Engineering Journal2023,473. (中科院1区)
9. Wang, H.; Nie, L.; Chu, X.; Chen, H.; Chen, R.; Huang, T.; Lai, Q.; Zheng, J.*, Flame-Retardant Nonaqueous Electrolytes for High-Safety Potassium-Ion Batteries. Small Methods2023,8 (7),2301104. (中科院2区)
10. Zang, S.; Chu, X.; Wang, H.; Zheng, J.*; Hu, C.; Nie, L.; Chen, H.; Ma, M.; Lai, Q.*, Enhanced K-storage boosted by compatible ester-based electrolyte for COFs-derived non-graphitic carbon. Applied Surface Science 2023,630, 157530. (中科院2区)
11. Zheng, J.*; Zang, S.; Hu, C.; Nie, L.; Chen, H.; Chu, X.; Wang, H.; Ma, M.; Lai, Q.*, Structure optimization and electrolyte regulation boost K-storage performance of graphite anode. Journal of Power Sources2023,559, 232634. (中科院2区)
12. Zheng, J.*; Hu, C.; Nie, L.; Zang, S.; Chen, H.; Chen, N.; Ma, M.; Lai, Q.*, Electrolyte manipulation enhanced pseudo-capacitive K-storage for TiO2 anode. Applied Surface Science2023,611, 155617. (中科院2区)
13. Shen, N.; Chen, N.; Lai, Q.; Pang, Y.; Sheng, Y.; Chen, H.; Zhang, W.; Zheng, J.; Liang, Y., Efficient K-Storage of Fe-Coupled Organic Molecule Anode in Ether-Based Electrolytes. Chemistry-a European Journal2023. (中科院2区)
14. Shen, N.; Chen, N.; Pang, Y.; Zang, S.; Hu, C.; Tang, Z.; Lai, Q.*; Zheng, J.*; Liang, Y.*, Self-templated anchor of FeS2 nanoparticles on porous carbon matrix as highly reversible K-storage anode. Applied Surface Science 2023,608, 155153. (中科院2区)
15. Zheng, J.*; Hu, C.; Nie, L.; Chen, H.; Zang, S.; Ma, M.; Lai, Q.*, Recent Advances in Potassium-Ion Batteries: From Material Design to Electrolyte Engineering. Advanced Materials Technologies 2023,8(8), 1. (中科院3区)
16. Huang, Q.; Wang, G.; Zhou, M.; Zheng, J.*; Tang, S.; Ji, G.*, Metamaterial electromagnetic wave absorbers and devices: Design and 3D microarchitecture. Journal of Materials Science & Technology2022,108, 90-101. (中科院1区)
17. Zheng, J.*; Nie, L.; Hu, C.; Zang, S.; Pang, Y.; Chen, N.; Ma, M.; Lai, Q.*, Manipulating K-Storage Mechanism of Soft Carbon via Molecular Design-Driven Structure Transformation. ACS Applied Materials & Interfaces2022. (中科院2区)
18. Zang, S.; Hu, C.; Lai, Q.; Nie, L.; Chen, H.; Yi, R.; Ma, M.; Zheng, J.*, Electrolyte Regulation for Non-Graphitic Carbon to Achieve Stable Long-Cycling K-Storage. ACS Applied Materials & Interfaces2022,14 (39), 44479-44487. (中科院2区)
19. Zang, S.; Hu, C.; Nie, L.; Chen, H.; Yu, X.; Ma, M.; Zheng, J.*, Research progress in anode materials based on multiple potassium storage mechanisms. Sustainable Materials and Technologies2022,33, e00480. (中科院2区)
20. Zhao, Y.; Hao, L.; Zhang, X.; Tan, S.*; Li, H.; Zheng, J.*; Ji, G.*, A Novel Strategy in Electromagnetic Wave Absorbing and Shielding Materials Design: Multi-Responsive Field Effect. Small Science2022,2 (2), 2100077. (中科院2区)
21. Lai, Q.*; Pang, Y.; Chen, N.; Shen, N.; Hu, C.; Nie, L.; Zang, S.; Zheng, J.*; Liang, Y.*, Structure Manipulation of C1N1-Derived N-Doped Defective Carbon Nanosheets to Significantly Boost K-Storage Performance. ACS Applied Energy Materials2022. (中科院3区)
22. Gu, W.; Cui, X.; Zheng, J.; Yu, J.; Zhao, Y.; Ji, G.*, Heterostructure design of Fe3N alloy/porous carbon nanosheet composites for efficient microwave attenuation. Journal of Materials Science & Technology 2021,67, 265-272. (中科院1区)
23. Chen, J.; Zheng, J.*; Huang, Q.; Wang, G.; Ji, G.*, Carbon fibers@Co-ZIFs derivations composites as highly efficient electromagnetic wave absorbers. Journal of Materials Science & Technology2021,94, 239-246. (中科院1区)
24. Chen, J.; Liang, X.; Zheng, J.*; Gu, W.; Pei, C.; Fan, F.; Ji, G.*, Modulating dielectric loss of mesoporous carbon fibers with radar cross section reduction performance via computer simulation technology. Inorganic Chemistry Frontiers 2021,8 (3), 758-765. (中科院1区)
25. Lai, Q.*; Zheng, H.; Tang, Z.; Bi, D.; Chen, N.; Liu, X.*; Zheng, J.; Liang, Y.*, Balance of N-Doping Engineering and Carbon Chemistry to Expose Edge Graphitic N Sites for Enhanced Oxygen Reduction Electrocatalysis. ACS Applied Materials & Interfaces 2021,13 (51), 61129-61138. (中科院2区)
26. Chen, J.; Zheng, J.*; Huang, Q.; Wang, F.; Ji, G.*, Enhanced Microwave Absorbing Ability of Carbon Fibers with Embedded FeCo/CoFe2O4 Nanoparticles. ACS Applied Materials & Interfaces2021,13 (30), 36182-36189. (中科院2区)
27. Gong, H.; Tan, S.*; Zheng, J.*; Peng, K.; Zhang, Y.; Hu, Y.; Duan, S.; Xu, G., Enhanced microwave absorption properties of flake-shaped FeCo/BaFe12O19 composites. Ceramics International2021,47 (9), 12389-12396. (中科院2区)
28. Chen, J.; Zheng, J.*; Wang, F.; Huang, Q.; Ji, G.*, Carbon fibers embedded with FeIII-MOF-5-derived composites for enhanced microwave absorption. Carbon 2021,174, 509-517. (中科院2区)
29. Zhang, N.; Gu, W.; Zhao, Y.; Zheng, J.* ; Pei, C.; Fan, F.; Ji, G.*, The enhanced microwave broadband absorbing ability of carbon microspheres via electromagnetic simulating honeycomb design. Journal of Materials Science: Materials in Electronics2021,32 (21), 25809-25819. (中科院3区)
30. ; Pei, C.; Fan, F.; Ji, G.*, The enhanced microwave broadband absorbing ability of carbon microspheres via electromagnetic simulating honeycomb design. Journal of Materials Science: Materials in Electronics2021,32 (21), 25809-25819. (中科院3区)
31. Gu, W.; Zheng, J.; Liang, X.; Cui, X.; Chen, J.; Zhang, Z.; Ji, G.*, Excellent lightweight carbon-based microwave absorbers derived from metal-organic frameworks with tunable electromagnetic properties. Inorganic Chemistry Frontiers 2020,7 (8), 1667-1675. (中科院1区)
32. Zhang, Z.; Tan, J.; Gu, W.; Zhao, H.; Zheng, J.; Zhang, B.*; Ji, G.*, Cellulose-chitosan framework/polyailine hybrid aerogel toward thermal insulation and microwave absorbing application. Chemical Engineering Journal2020,395. (中科院1区)
33. Lin, Y.; Zheng, J.; Wang, C.*; Qi, Y.*, The origin of the two-plateaued or one-plateaued open circuit voltage in Li–S batteries. Nano Energy 2020,75, 104915. (中科院1区)
34. Zhao, H.; Cheng, Y.; Zhang, Z.; Yu, J.; Zheng, J.; Zhou, M.; Zhou, L.; Zhang, B.*; Ji, G.*, Rational design of core-shell Co@C nanotubes towards lightweight and high-efficiency microwave absorption. Composites Part B: Engineering2020,196, 108119. (中科院1区)
35. Liang, X.; Man, Z.; Quan, B.; Zheng, J.; Gu, W.; Zhang, Z.; Ji, G.*, Environment-Stable CoxNiy Encapsulation in Stacked Porous Carbon Nanosheets for Enhanced Microwave Absorption. Nano-Micro Letters 2020,12 (1), 102. (中科院1区)
36. Lai, Q.*; Zheng, J.; Tang, Z.; Bi, D.; Zhao, J.; Liang, Y.*, Optimal Configuration of N-Doped Carbon Defects in 2D Turbostratic Carbon Nanomesh for Advanced Oxygen Reduction Electrocatalysis. Angewandte Chemie International Edition 2020,59 (29), 11999-12006. (中科院1区)
37. Zhou, M.; Gu, W.; Wang, G.; Zheng, J.*; Pei, C.; Fan, F.; Ji, G.*, Sustainable wood-based composites for microwave absorption and electromagnetic interference shielding. Journal of Materials Chemistry A 2020. (中科院2区)
38. Cheng, Y.; Zhao, H.; Zhao, Y.; Cao, J.; Zheng, J.; Ji, G.*, Structure-switchable mesoporous carbon hollow sphere framework toward sensitive microwave response. Carbon 2020,161, 870-879. (中科院2区)
39. Liang, Y.; Luo, C.; Wang, F.; Hou, S.; Liou, S.-C.; Qing, T.; Li, Q.; Zheng, J.; Cui, C.; Wang, C.*, An Organic Anode for High Temperature Potassium-Ion Batteries. Advanced Energy Materials 2019,9 (2). (中科院1区)
40. Zheng, J.; Ji, G.; Fan, X.; Chen, J.; Li, Q.; Wang, H.; Yang, Y.; DeMella, K. C.; Raghavan, S. R.; Wang, C.*, High-Fluorinated Electrolytes for Li-S Batteries. Advanced Energy Materials 2019,9 (16). (中科院1区)
41. Zheng, J.; Yang, Y.; Fan, X.; Ji, G.; Ji, X.; Wang, H.; Hou, S.; Zachariah, M. R.*; Wang, C.*, Extremely stable antimony-carbon composite anodes for potassium-ion batteries. Energy & Environmental Science 2019,12 (2), 615-623.(中科院1区)
42. Fan, X.; Chen, L.; Borodin, O.; Ji, X.; Chen, J.; Hou, S.; Deng, T.; Zheng, J.; Yang, C.; Liou, S.-C.; Amine, K.*; Xu, K.*; Wang, C.*, Non-flammable electrolyte enables Li-metal batteries with aggressive cathode chemistries. Nature Nanotechnology2018,13 (8), 715-+.(中科院1区)
43. Fan, X.; Chen, L.; Ji, X.; Deng, T.; Hou, S.; Chen, J.; Zheng, J.; Wang, F.; Jiang, J.; Xu, K.; Wang, C.*, Highly Fluorinated Interphases Enable High-Voltage Li-Metal Batteries. Chem 2018,4 (1), 174-185. (中科院1区)
44. Zheng, J.; Fan, X.; Ji, G.; Wang, H.; Hou, S.; DeMella, K. C.; Raghavan, S. R.; Wang, J.; Xu, K.; Wang, C.*, Manipulating electrolyte and solid electrolyte interphase to enable safe and efficient Li-S batteries. Nano Energy2018,50, 431-440. (中科院1区)
45. Zheng, J.; Liu, L.; Ji, G.*; Yang, Q.; Zheng, L.; Zhang, J., Hydrogenated Anatase TiO2 as Lithium-Ion Battery Anode: Size-Reactivity Correlation. Acs Applied Materials & Interfaces 2016,8 (31), 20074-20081. (中科院2区)
46. Zheng, J.; Liu, Y.; Ji, G.*; Zhang, P.; Cao, X.; Wang, B.; Zhang, C.*; Zhou, X.; Zhu, Y.; Shi, D., Hydrogenated Oxygen-Deficient Blue Anatase as Anode for High-Performance Lithium Batteries. Acs Applied Materials & Interfaces 2015,7 (42), 23431-23438. (中科院2区)
47. Zheng, J.; Ji, G.*; Zhang, P.; Cao, X.; Wang, B.; Yu, L.; Xu, Z., Facile Aluminum Reduction Synthesis of Blue TiO2 with Oxygen Deficiency for Lithium-Ion Batteries. Chemistry-a European Journal 2015,21 (50), 18309-18315. (中科院2区)
48. Zheng, J.; Lv, H.; Lin, X.; Ji, G.*; Li, X.; Du, Y., Enhanced microwave electromagnetic properties of Fe3O4/graphene nanosheet composites. Journal of Alloys and Compounds 2014,589, 174-181. (中科院2区)
49. Zheng, J.; Yu, Z.; Ji, G.*; Lin, X.; Lv, H.; Du, Y., Reduction synthesis of FexOy@SiO2 core-shell nanostructure with enhanced microwave-absorption properties. Journal of Alloys and Compounds 2014,602, 8-15. (中科院2区)
专著:
1. Lai, Q.*; Zheng, J.Carbon Nanotubes for Metal-Sulfur Batteries. In NanoCarbon: A Wonder Material for Energy Applications: Volume 2: Fundamentals and Advancement for Energy Storage Applications, Gupta, R. K., Ed. Springer Nature Singapore: Singapore,2024; pp 151-169.
国家发明专利:
1. 郑晶,臧沈荦,一种钾离子半电池及其采用的石墨负极材料和高浓盐电解液,中国,202211555699.9。
2. 郑晶,聂栾杰,一种铋负极和优化电解液在钾离子半电池中的应用,中国,202310372442.8。
3. 郑晶,褚小康,一种有机复合材料和优化离子液体电解液在钾离子电池中的应用,中国,202311810871.5。
4. 郑晶,陈航,一种有机氮杂环负极和优化电解液在钾离子电池中的应用,中国,202311812383.8。
5. 郑晶,聂栾杰,一种钾离子电池铋基负极及环醚电解液的制备方法,中国,202311812001.1。
6. 郑晶,王浩,一种改性有机电极材料和匹配电解液在钾离子半电池中的应用,中国,202311811796.4。
7. 郑晶,褚小康,一种醛基有机复合材料和优化酯醚杂化电解液用于钾离子电池,中国,202410682997.7。
8. 郑晶,陈航,一种氮基芳香分子负极和电解液添加剂在钾离子电池中的应用,中国,202410682991.X。
