男，1987年出生，副教授，特聘教授第五层次，青岛大学机电工程学院。

教育及工作履历

2022-至今青岛大学，动力集成及储能系统工程技术中心/机电工程学院，副教授

2018~2022中车青岛四方车辆研究所有限公司，高级工程师

2016~2018中国科学院青岛生物能源与过程研究所 博士后

2010~2016中国科学院金属研究所，博士

主要研究方向

1.锂/钠离子电池正极材料开发及应用；

2.锂离子电容器材料及关键技术研究；

3.燃料电池连接体涂层研发。

学术成果

1.项目

（1）中国博士后科学基金，类石墨烯晶体Ti₃C₂T_x基复合材料的储锂机制研究/中国博士后科学基金会，主持。

（2）山东省重点研发计划（重大科技创新工程），锂离子电容器电极制备与单体产业化及应用研究，参与。

2.代表性论文

[1]X.C. Li, Z.K. Wang, S.L. Wei, L. Zhao, J.J. Xu, T. He, L.L. Zheng*, TiC and (Ti,Nb)₃SiC₂based dual-layer coating on SUS430 for solid oxide fuel cell interconnects, International Journal of Hydrogen Energy,63(2024)19–27.

[2]X.C.Li, X.L.Chang , Y.Feng , Z.Q.Dai , L.L.Zheng*,Investigation on the heat generation and heat sources of cylindricalNCM811 lithium-ion batteries,Applied Thermal Engineering 241 (2024) 122403.

[3]X.C.Li,Y.C. Chi,S.L.Wei, X.W.Sun,J.X. Zhao, Q.Q. Hou,K. Fu,Z.Q.Dai,L.L.Zheng*,The preparation and properties of Ti(Nb)-Si-C coating on the pre-oxidized ferritic stainless steel for SOFC interconnect, Materials, 17 (2024), 632.

[4]X.C. Li, L.L. Zheng, Thickness-dependent oxidation behaviors of Ti₃AlC₂foils at 1100 ◦C in air, Corrosion Science 185 (2021) 109431.

[5]X.C. Li, L.Z. Liu, Mitigated voltage decay and improved electrochemical properties of 0.5Li₂MnO₃∙0.5LiNi_xCo_yMn_1-x-yO₂cathode via composition optimizing, Ionics 27 (2021) 2889–2900.

[6]X.C. Li, L.L. Zheng, J.F. Wu, Multiply depolarized composite cathode of Li_1.2Mn_0.54Ni_0.13Co_0.13O₂embedded in a combinatory conductive network for lithium-ion battery with superior overall performances, Journal of Alloys and Compounds 744 (2018) 41-50.

[7]X.C. Li, Y.H. Qian, J.F. Wu, Enhanced lithium and electron diffusion of LiFePO₄cathode with two-dimensional Ti₃C₂MXene nanosheets, Journal of Materials Science 53 (2018) 11078-11090.

[8]X.C. Li, L.L. Zheng, Y.H. Qian, J.J. Xu, M.S. Li, Effects of High Temperature Oxidation on Mechanical Properties of Ti3AlC2, Journal of Materials Science & Technology 33 (2017) 596–602.

[9] X.C. Li, L.L. Zheng, Y.H. Qian, J.J. Xu, M.S. Li, Breakaway oxidation of Ti₃AlC₂during long-term exposure in air at 1100^oC, Corrosion Science 104 (2016) 112-122.

[10]X.C. Li, Y.H. Qian, L.L. Zheng, M.S. Li, Determination of the critical content of Al in Ti₃AlC₂for the formation of Al₂O₃scale during oxidation at 1100 oC in air, Journal of the European Ceramic Society 36 (2016) 3311-3318.

[11] L.L. Zheng*,X.C. Li, W.B. Guan, M.S. Li, Y.H. Qian, J.J. Xu, Oxidation behavior and electrical conductivity of MAXs phase (Ti,Nb)₃SiC₂as a novel intermediate temperature solid oxide fuel cell interconnect material in anode environment, I. J. H. Energy, 46(2021) 9503-9513.

[12]L.L. Zheng, Q.S. Hua,X.C. Li*, Investigation on the effect of Nb doping on the oxidation mechanism of Ti₃SiC₂, Corrosion Science 140(2018) 374-378.

[13]L.L. Zheng, Q.S. Hua,X.C. Li*, M.S. Li, Y.H. Qian, J.J. Xu, Z.Q Dai, H.X. Zhang, T.Z. Zhang, J.W. Wu, Exploring a novel ceramic (Ti,W)₃SiC₂for interconnect of intermediate temperature solid oxide fuel cell,International Journal of Hydrogen Energy 43(2018)7483-7491.

[14]L.L. Zheng, Q.S. Hua,X.C. Li*, M.S. Li, Y.H. Qian, J.J. Xu, Investigation on the properties of Ta doped Ti3SiC2 as solid oxide fuel cell interconnects, RSC Adv., 7 (2017) 42350-42356.

联系方式：

办公地址：动力集成及储能系统工程技术中心201

E-mail：lixichao2015@163.com.