• 1985.04 至 1988.06, 武汉理工大学, 讲师

• 1988.07 至 1992.07, 武汉理工大学, 副教授

• 1992.07 至 1999.11, 武汉理工大学, 教授

• 1999.12 至 今, 清华大学, 教授

   国外工作经历：

• 1990.02-1991.04, 美国New Mexico大学微观工程陶瓷中心

• 1994.12-1995.12, 美国California大学Santa Barbara分校材料系

• 1996.06-1997.12, 德国Saarlandes大学纳米材料研究所

• 1999.01-1999.10, 美国Rutgers大学

长期从事功能陶瓷与复合材料的研究，主要包括：

• 固态电解质及固态电池

• 多铁性材料与器件

• 有机－无机复合功能材料

• 过渡金属氧化物

• 材料显微结构-性能关联计算与模拟

• 2023年 国家自然科学二等奖（排名第二）

• 2021年 教育部自然科学一等奖

• 2005年 国家自然科学奖二等奖

• 2002年 北京市科学技术奖一等奖

• 2000年 美国ISI (SCI总部) Citation Classic Award （经典引文奖）

• 1999年 美国陶瓷学会电子陶瓷Edward C. Henry奖

• 1992年 中国青年科技奖

共发表SCI收录论文900余篇，论文被他人引用超过7万余次，获授权发明专利50余项。

【主要代表性论文】

1. Y.J. Liu, Y. Zhang, J. Wang, C. Yang, H.G. Wang, J.L. MacManus-Driscoll, H.Yang, P.A. van Aken, W.W. Li, C.W. Nan, Ultrahigh capacitive energy storage through dendritic nanopolar design. Science 388, 211-216 (2025).

2. B.B. Yang, Y. Liu, R.J. Jiang, S. Lan, S.Z. Liu, Z.F. Zhou, L. Dou, M. Zhang, H.B.Huang, L.Q. Chen, Y.L. Zhu, S.J. Zhang, X.L. Ma, C.W. Nan, Y.H. Lin, Enhanced energy storage in antiferroelectrics via antipolar frustration. Nature 637, 10.1038/s41586-024-08505-7 (2025).

3. D. Yi, C.W. Nan, When relaxor films go ultrathin. Nature Nanotechnology 20, 464-465 (2025).

4. H.C. Yuan, D. Yu, P.P. Ding, H. Liu, K.H. Wen, X. Ren, Y. Li, Y. Liang, C.J. Guo, J.H. Zhang, Y.Y. Ren, C.Z. Zhao, L.L. Li, Y. Yang, Q. Zhang, C.W. Nan, Regulating Sodium Deposition Kinetics to Decouple the Electrochemo-Mechanical Effects in Anode-Free Sodium Batteries. Advanced Energy Materials 10.1002/aenm.202501103 (2025).

5. Min Zhang, Shun Lan, Bing B. Yang, Hao Pan, Yi Q. Liu, Qing H. Zhang, Jun L. Qi, Di Chen, Hang Su, Di Yi, Yue Y. Yang, Rui Wei, Hong D. Cai, Hao J. Han, Lin Gu, Ce-Wen Nan, and Yuan-Hua Lin ,Ultrahigh energy storage in high-entropy ceramic capacitors with polymorphic relaxor phase. Science 384,185-189 (2024).

6. Minzheng Yang, Haoyang Li, Jian Wang, Wenxiong Shi, Qinghua Zhang, Hanzheng Xing, Weibin Ren, Binzhou Sun, Mengfan Guo, Erxiang Xu, Nannan Sun, Le Zhou, Yao Xiao, Mufeng Zhang, Zhong Li, Jiayu Pan, Jianyong Jiang, Zhonghui Shen, Xiaoyan Li, Lin Gu, Ce-Wen Nan, Xun Wang & Yang Shen. Roll-to-roll fabricated polymer composites filled with subnanosheets exhibiting high energy density and cyclic stability at 200 °C. Nature Energy 9, 143–153 (2024).

7. Minzheng Yang, Mengfan Guo, Erxiang Xu, Weibin Ren, Danyang Wang, Sean Li, Shujun Zhang, Ce-Wen Nan & Yang Shen. Polymer nanocomposite dielectrics for capacitive energy storage. Nature Nanotechnology 19, 588–603 (2024).

8. P.P. Ding, H.C. Yuan, L. Xu, L. Wu, H.Z. Du, S. Zhao, D.F. Yu, Z. Qin, H. Liu, Y. Li, X. Zhang, H.J. Yu, M.X. Tang, Y.Y. Ren, L.L. Li, C.W. Nan, Coordination Regulation Enabling Deep Eutectic Electrolyte for Fast-Charging High-Voltage Lithium Metal Batteries. Advanced Materials 37, 10.1002/adma.202413654 (2024).

9. H. Liu, D. Li, C.X. Dong, Y. Li, H.C. Yuan, D.F. Yu, L. Gao, P.P. Ding, Y. Li, Z. Qin, Y. Liang, H. Luo, L.L. Li, Y.Y. Ren, L.Z. Fan, C.W. Nan, Generalized Interphase Design for Stabilized Li/Inorganic Electrolyte Interfaces. Advanced Energy Materials 14, 10.1002/aenm.202402064 (2024).

10. X. Miao, C. Song, W. Hu, Y.Y. Ren, Y. C.W. Nan, Achieving High-Performance Lithium-Sulfur Batteries by Modulating Li⁺ Desolvation Barrier with Liquid Crystal Polymers. Advanced Materials 36, 10.1002/adma.202401473 (2024).

11. Bingbing Yang, Qinghua Zhang, Houbing Huang, Hao Pan, Wenxuan Zhu, Fanqi Meng, Shun Lan, Yiqian Liu, Bin Wei, Yiqun Liu, Letao Yang, Lin Gu, Long-Qing Chen, Ce-Wen Nan & Yuan-Hua Lin. Engineering relaxors by entropy for high energy storage performance. Nature Energy 8, 956–964 (2023).

12. X. Miao, SD. Guan, C. Ma, L.L. Li, C.W. Nan, Role of Interfaces in Solid‐State Batteries. Advanced Materials 2023, 10.1002/adma.202206402 (2023).

13. Bingbing Yang, Yang Zhang, Hao Pan, Wenlong Si, Qinghua Zhang, Zhonghui Shen, Yong Yu, Shun Lan, Fanqi Meng, Yiqian Liu, Houbing Huang, Jiaqing He, Lin Gu, Shujun Zhang, Long-Qing Chen, Jing Zhu, Ce-Wen Nan & Yuan-Hua Lin. High-entropy enhanced capacitive energy storage. Nature Materials 21, 1074–1080 (2022).

14. S. Liu, L. Zhou, J. Han, K. Wen, S. Guan, C. Xue, Z. Zhang, B. Xu, Y. Lin, Y. Shen, L. Li, C.-W. Nan, Super long-cycling all-solid-state battery with thin Li6PS5Cl-based electrolyte. Advanced Energy Materials 12, 2200660 (2022).

15. Kaihua Wen; Chengzhou Xin; Shundong Guan; Xinbin Wu; Shan He; Chuanjiao Xue; Sijie Liu; Yang Shen; Liangliang Li; Ce-Wen Nan. Ion-dipole interaction regulation enables high-performance single ion polymer conductors for solid-state batteries. Advanced Materials, 34, 2202143 (2022).

16. Jing Wang; Jing Ma; Houbing Huang; Ji Ma; Hasnain Mehdi Jafri; Yuanyuan Fan; Huayu Yang; Yue Wang; Mingfeng Chen; Di Liu; Jinxing Zhang; Yuan-Hua Lin; Long-Qing Chen; Di Yi; Ce-Wen Nan, Ferroelectric domain-wall logic units, Nature Communications 13, 3255 (2022).

17. Yiqian Liu, Yao Wang, Ji Ma, Shun Li, Hao Pan, Ce-Wen Nan, Yuan-Hua Lin, Controllable electrical, magnetoelectric and optical properties of BiFeO₃ via domain engineering. Progress in Materials Science 127, 100943 (2022).

18. Hao Pan, Shun Lan, Shiqi Xu, Qinghua Zhang, Hongbao Yao, Yiqian Liu, Fanqi Meng, Er-Jia Guo, Lin Gu, Di Yi, Xiao Renshaw Wang, Houbing Huang, Judith L. MacManus-Driscoll, Long-Qing Chen, Kui-Juan Jin, Ce-Wen Nan, and Yuan-Hua Lin, Ultrahigh energy storage in superparaelectric relaxor ferroelectrics. Science 374, 100-104 (2021).

19. Li-Zhen Fan, Hongcai He, Ce-Wen Nan, Tailoring inorgani–polymer composites for the mass production of solid-state batteries. Nature Reviews Materials 6, 1003-1019 (2021).

20. Mengfan Guo, Changqing Guo, Jian Han, Shulin Chen, Shan He, Tongxiang Tang, Qian Li, Joseph Strzalka, Jing Ma, Di Yi, Ke Wang, Ben Xu, Peng Gao, Houbing Huang, Long-Qing Chen, Shujun Zhang, Yuan-Hua Lin, Ce-Wen Nan, Yang Shen, Toroidal polar topology in strained ferroelectric polymer. Science 371, 1050-1056 (2021).

21. Shuo Wang; Mingxue Tang; Qinghua Zhang; Baohua Li; Saneyuki Ohno; Felix Walther; Ruijun Pan; Xiaofu Xu; Chengzhou Xin; Wenbo Zhang; Liangliang Li; Yang Shen; Felix H. Richter; Jürgen Janek; Ce-Wen Nan ; Lithium Argyrodite as Solid Electrolyte and Cathode Precursor for Solid-State Batteries with Long Cycle Life. Advanced Energy Materials, 11, 2101370 (2021).

22. Hao Pan; Fei Li; Yao Liu; Qinghua Zhang; Meng Wang; Shun Lan; Yunpeng Zheng; Jing Ma; Lin Gu; Yang Shen; Pu Yu; Shujun Zhang; Long-Qing Chen; Yuan-Hua Lin; Ce-Wen Nan, Ultrahigh-energy density lead-free dielectric films via polymorphic nanodomain design. Science, 365, 578-582 (2019).

23. Xue Zhang; Shuo Wang; Chuanjiao Xue; Chengzhou Xin; Yuanhua Lin; Yang Shen; Liangliang Li; Ce-Wen Nan. Self-suppression of lithium dendrite in all-solid-state lithium metal batteries with poly (vinylidene difluoride)-based solid electrolytes. Advanced Materials, 31, 1806082 (2019).

24. Ji Ma; Jing Ma; Qinghua Zhang; Renci Peng; Jing Wang; Chen Liu; Meng Wang; Ning Li;Mingfeng Chen; Xiaoxing Cheng; Peng Gao; Lin Gu; Long-Qing Chen; Pu Yu; Jinxing Zhang; Ce-Wen Nan, Controllable conductive readout in self-assembled, topologically confined ferroelectric domain walls. Nature Nanotechnology, 13, 947-952 (2018).

25. Z.H. Shen, J.J. Wang, J.Y. Jiang, Y.H. Lin, C.W. Nan, L.Q. Chen, Y. Shen, Phase-Field Model of Electrothermal Breakdown in Flexible High-Temperature Nanocomposites under Extreme Conditions. Advanced Energy Materials 8, 1800509 (2018).

26. X. Zhang, T. Liu, S.F. Zhang, X. Huang, B.Q. Xu, Y.H. Lin, B. Xu, L.L. Li, C.W. Nan, Y. Shen, Synergistic Coupling between Li_6.75La₃Zr_1.75Ta_0.25O₁₂ and Poly(vinylidene fluoride) Induces High Ionic Conductivity, Mechanical Strength, and Thermal Stability of Solid Composite Electrolytes. Journal of the American Chemical Society 139: 13779-13785 (2017).

27. N.P. Lu, P.F. Zhang, Q.H. Zhang, R.M. Qiao, Q. He, H.B. Li, Y.J. Wang, J.W. Guo, D. Zhang, Z. Duan, Z.L. Li, M. Wang, S.Z. Yang, M.Z. Yan, E. Arenholz, S.Y. Zhou, W.L. Yang, L. Gu, C.W. Nan, J. Wu, Y. Tokura, P. Yu, Electric-field control of tri-state phase transformation with a selective dual-ion switch. Nature 546, 124 (2017).

28. G.K. Ren, S.Y. Wang, Y.C. Zhu, K.J. Ventura, X. Tan, W. Xu, Y.H. Lin, J.H. Yang, C.W. Nan. Enhancing thermoelectric performance in hierarchically structured BiCuSeO by increasing bond covalency and weakening carrier-phonon coupling. Energy & Environmental Science 10, 1590-1599 (2017).

29. X. Zhang, Y. Shen, B. Xu, Q.H. Zhang, L. Gu, J.Y. Jiang, J. Ma, Y.H. Lin, C.W. Nan, Giant Energy Density and Improved Discharge Efficiency of Solution-Processed Polymer Nanocomposites for Dielectric Energy Storage, Advanced Materials 28, 2055~2061 (2016).

30. J.M. Hu, L.Q. Chen, C.W. Nan, Multiferroic Heterostructures Integrating Ferroelectric and Magnetic Materials, Advanced Materials 28, 15~39 (2016).

31. X. Zhang, Y. Shen, Q.H. Zhang, L. Gu, Y.H. Hu, J.W. Du, Y.H. Lin, C.W. Nan, Ultrahigh Energy Density of Polymer Nanocomposites Containing BaTiO3@TiO2 Nanofibers by Atomic-Scale Interface Engineering. Advanced Materials 27, 819~824 (2015).

32. J.M. Hu, T.N. Yang, J.J. Wang, H.B. Huang, J.X. Zhang, L.Q. Chen, C.W. Nan, Purely Electric-Field-Driven Perpendicular Magnetization Reversal. Nano Letters 15, 616 (2015).

33. C.W. Nan, Q. Jia, Obtaining ultimate functionalities in nanocomposites: design, control, and fabrication. MRS Bulletin 40, 719-724 (2015).

34. P. Hu; Y. Shen; Y. Guan; X. Zhang; Y. Lin; Q. Zhang; C.-W. Nan, Topological-Structure Modulated Polymer Nanocomposites Exhibiting Highly Enhanced Dielectric Strength and Energy Density. Advanced Functional Materials 24, 3172-3178(2014).

35. J.L. Lan, Y.C. Liu, B. Zhan, Y. Liu, Y.H. Lin, B.P. Zhang, C.W. Nan, Enhanced thermoelectric properties of Pb-doped BiCuSeO ceramics. Advanced Materials 96, 5086-5090 (2013).

36. J.M. Hu, Z. Li, L.Q. Chen, C.W. Nan, Design of a Voltage-Controlled Magnetic Random Access Memory Based on Anisotropic Magnetoresistance in a Single Magnetic Layer. Advanced Materials 24, 2869~2873 (2012).

37. J.M. Hu, Z. Li, L.Q. Chen, C.W. Nan, High-density magnetoresistive random access memory operating at ultralow voltage at room temperature, Nature Communications 2, 553 (2011).

38. J. Ma, J.M. Hu, Z. Li, C.W. Nan, Recent Progress in Multiferroic Magnetoelectric Composites: from Bulk to Thin Films. Advanced Materials, 23, 1062~1087 (2011).

39. C. W. Nan, Y. Shen, J. Ma, Physical properties of composites near percolation, Annual Review of Materials Research, 40, 131-151 (2010).

40. C. W. Nan, M. I. Bichurin, S. X. Dong, D. Viehland, G. Srinivasan, Multiferroic magnetoelectric composites: Historical perspective, status, and future directions, (Applied Physics Review), Journal of Applied Physics 103, 031101 (2008).

41. Y. Shen, Y.H Lin, M. Li, C.W. Nan, High dielectric performance of polymer composite films induced by a percolating interparticle barrier layer. Advanced Materials 19, 1418 (2007).

42. J. Ma, Z. Shi, C. W. Nan, Magnetoelectric properties of composites of single Pb(Zr,Ti)O3 rods and Terfenol-D/epoxy with a single-period of 1-3-type structure. Advanced Materials 19, 2571-2573 (2007).

43. C. W. Nan, G. Liu, Y. H. Lin, H. D. Chen, Magnetic-field-induced electric polarization in multiferroic nanostructures, Physical Review Letters 94, 197203 (2005).

44. 南策文，《非均质材料物理：显微结构-性能关联》. 科学出版社，北京，2005.

45. C. W. Nan, L. Z. Fan, Y. H. Lin, Q. Cai, Enhanced ionic conductivity of polymer electrolytes containing nanocomposite SiO2 particles, Physical Review Letters 91, 266104 (2003).

46. Z. M. Dang, Y. H. Lin, C. W. Nan, Novel ferroelectric polymer composites with high dielectric constants. Advanced Materials 15, 1625-1629 (2003).

47. J. B. Wu, C. W. Nan, Y. H. Lin, Y. Deng, Giant dielectric permittivity observed in Li and Ti doped NiO. Physical Review Letters. 89, 217601 (2002).

48. C. W. Nan, M. Li, J. H. Huang, Calculations of giant magnetoelectric effects in ferroic composites of rare-earth-iron alloys and ferroelectric polymers. Physical Review B 63, 144415 (2001).

49. C. W. Nan, G. J. Weng, Theoretical approach to effective electrostriction in inhomogeneous materials. Physical Review B 61, 258-265 (2000).

50. C. W. Nan, G. J. Weng, Influence of microstructural features on the effective magnetostriction of composite materials. Physical Review B 60, 6723-6730 (1999).

51. C. W. Nan, R. Birringer, Determining the Kapitza resistance and the thermal conductivity of polycrystals: A simple model, Physical Review B 57, 8264-8268 (1998).

52. C. W. Nan, R. Birringer, D.R. Clarke, H. Gleiter, Effective thermal conductivity of particulate composites with interfacial thermal resistance. Journal of Applied Physics 81, 6692 (1997).

53. C. W. Nan, D. R. Clarke, The influence of particle size and particle fracture on the elastic/plastic deformation of metal-matrix composites. Acta Materialia 44(9), 3801-3811 (1996).

54. C. W. Nan, Magnetoelectric effect in composites of piezoelectric and piezomagnetic phases. Physical Review B 50, 6082-6088 (1994).

55. C. W. Nan, Physics of inhomogeneous inorganic materials. Progress in Materials Science 37, 1-116 (1993).