Faculty
Location:Faculty&Staff > Faculty
LI Jingfeng

Prof. Jing-Feng Li is a “Changjiang Scholar” distinguished Professor at School of Materials Science and Engineering, Tsinghua University, and also vice director of Tsinghua Univ.-Toyota Research Center. Prof. Li is leading a research group in the state key laboratory of new ceramics and fine processing, with research interests on electro-functional ceramics and their microfabrication technologies, including (1) piezoelectric ceramics and composites, piezoelectric films for MEMS applications; (2) thermoelectric materials and microdevices for energy conversion; (3) MEMS-based microfabrication processing of piezoelectric and thermoelectric materials. Prof. Li has published 413 SCI-indexed papers (H-citation index 58) and 25 patents and co-authored three books. He has received several awards including young researcher award from the Japan Institute of Metals, outstanding young scientist grant from NSF of China, Journal of the American Ceramic Society Loyalty Award. Prof. Li is now an Editor-in-Chief of Journal of Materiomics and editorial committee members for several international journals including Journal of Asian Ceramic Societies and NPG Asia Materials. (as of September, 2018)

expand>>
Education Background

1991, Ph. D, Tohoku University, Japan
1988, M. S., Tohoku University, Japan
1984, B. S., Huazhong University of Science and Technology, China

Work Resume

2013-2016, Vice Dean, School of Materials Science and Engineering
2009-, “Changjiang Scholar” distinguished professor
2006- , Deputy director, Tsinghua-Toyota Research Center
2004-2012, Vice Department Chair, MSE department
2002-, Professor, Tsinghua University
1997-2002, Associate Professor, Tohoku University, Japan
1992-1997, Assistant Professor, Tohoku University, Japan
1991-1992, Researcher, Nihon Ceratec Co. Ltd., Japan

Research Field

(1) Piezoelectric ceramics and composites, piezoelectric films for MEMS applications;
(2) Thermoelectric materials and microdevices for energy conversion;
(3) MEMS-based microfabrication processing of piezoelectric and thermoelectric materials.

Awards And Honors

Young Researcher Award, from Japan Institute of Metals, 1995,
Harada Award, from Japan Kinzoku Jyoseikai (foundation), 1998
National Science Fund for Distinguished Young Scholars, National Natural Science Foundation of China, 2003
Tsinghua University Good Educator Award, 2005
“Changjiang Scholar” Professorship, Ministry of Education, China, 2009.
Beijing Science and Technology Award (The Third Prize), Beijing City, 2010
Excellent Graduate Course Award, Tsinghua University, 2010
Beijing Science and Technology Award (The Third Prize), Beijing City, 2011
Journal of the American Ceramic Society Loyalty Award, 2014
Journal of Alloys and Compounds Top Cited Articles 2007 to 2011 award, 2013

Academic Achievements

Book & Chapter
1) J.B. Li and J.-F. LI: New Energy Materials and Application (in Chinese). Beijing: Tsinghua University Press, (2005)
2) Y. Tang and J.-F. Li, Introduction to New Materials (in Chinese), Metallurgy Industrial Press, (2004)
3) W. Pan, J.H. Gong, C.-C. Ge and J.-F. Li, High-performance ceramics III, Trans Tech Publications, (International Conference Proceedings), (2005)
4) Japan Ceramic Society and Japan Thermoelectric Society, Thermoelectric Conversion Materials, Chapter
5) 5)Materials Aspect of Thermoelectricity, Edited by Citirad Uher, CRC Press (2016)


Review Articles:
6) J. Roedel, J.-F. Li, Lead-free piezoceramics: Status and perspectives, MRS Bulletin, 43(2018)576-580.
7) J.-F. Li, K. Wang, F.-Y. Zhu, L.-Q. Cheng and F.-Z. Yao, (K, Na)NbO3-Based Lead-Free Piezoceramics: Fundamental Aspects, Processing Technologies and Remaining Challenges, Journal of the American Ceramic Society, 96 (2013)3677-3696. (Feature/Review article, cover page)
8) J.-F. Li, W. S. Liu, L.-D. Zhao, M. Zhou, High-performance nanostructured thermoelectric materials, NPG Asia Materials, 2 (2010) 152-158. (Review).
9) J.-F. Li, Y. Pan, C.-F. Wu, F.-H. Sun, T.-R. Wei, Processing of advanced thermoelectric materials, Science China Technological Science, 60(2017)1347. (Review)


Selected Research papers (for a complete set of publications, please visit http://www.researcherid.com/rid/D-2770-2014):
10) Y. Pan, U. Aydemir, J. A. Grovogui, I. T. Witting, R. Hanus, Y. Xu, J. Wu, C.-F. Wu, F.-H. Sun, H.-L. Zhuang, J.-F. Dong, J.-F. Li, V. P. Dravid, G. J. Snyder, Melt-Centrifuged (Bi,Sb)2Te3: Engineering Microstructure toward High Thermoelectric Efficiency, Advanced Materials, 30(2018)1802016.
11) Cheng Chang, Minghui Wu, Dongsheng He, Yanling Pei, Chao-Feng Wu, Xuefeng Wu, Hulei Yu, Fangyuan Zhu, Kedong Wang, Yue Chen, Li Huang, Jing-Feng Li, Jiaqing He, Li-Dong Zhao, 3D charge and 2D phonon transports leading to extremely high out-of-plane ZT in n-type SnSe crystals, Science, 360(2018)778-783.
12) Huaichao Tang, Fu-Hua Sun, Jin-Feng Dong, Asfandiyar, Hua-Lu Zhuang, Yu Pan, Jing-Feng Li, Graphene network in copper sulfide leading to enhanced thermoelectric properties and thermal stability, Nano Energy, 49(2018)267-273.
13) Wei, Wei, Cheng Chang, Teng Yang, Jizi Liu, Huaichao Tang, Jian Zhang, Yusheng Li, Feng Xu, Zhidong Zhang, Jing-Feng Li, Guodong Tang, Achieving High Thermoelectric Figure of Merit in Polycrystalline SnSe via Introducing Sn Vacancies, Journal of the American Chemical Society, 140(2018) 499-505.
14) Lei Zhao, Qing Liu, Jing Gao, Shujun Zhang, Jing-Feng Li, Lead-Free Antiferroelectric Silver Niobate Tantalate with High Energy Storage Performance, Advanced Materials, 29(2017)1701824.
15) M.-H. Zhang, K. Wang, Y.-J. Du, G. Dai, W. Sun, G. Li, D. Hu, H. C. Thong, C. L. Zhao, X.-Q. Xi, Z.-X. Yue, J.-F. Li, High and Temperature-Insensitive Piezoelectric Strain in Alkali Niobate Lead-free Perovskite, Journal of the American Chemical Society, 139(2017) 3889-3895.
16) Chao-Feng Wu, Tian-Ran Wei, Fu-Hua Sun and Jing-Feng Li, Nanoporous PbSe–SiO2 Thermoelectric Composites, Advanced Science, 4(2017)1700199
17) Yu Pan, Umut Aydemir, Fu-Hua Sun, Chao-Feng Wu, Thomas C. Chasapis, G. Jeffrey Snyder and Jing-Feng Li, Self-Tuning n-Type Bi2(Te,Se)3/SiC Thermoelectric Nanocomposites to Realize High Performances up to 300 °C, Advanced Science, 4(2017)1700259.
18) Jin Luo, Wei Sun, Zhen Zhou, Hyun-Young Lee, Ke Wang, Fangyuan Zhu, Yu Bai, Zhan Jie Wang and Jing-Feng Li, Monoclinic (K,Na)NbO3 Ferroelectric Phase in Epitaxial Films, Advanced Electronic Materials, 3(2017) 1700226 (cover page)
19) Z. L. Li, J.-F. Dong, F.-H. Sun, S. Hirono, J.-F. Li, Significant Enhancement of the Thermoelectric Performance of Higher Manganese Silicide by Incorporating MnTe Nanophase Derived from Te Nanowire, Chemistry of Materials, 29(2017)7378.
20) F.-Z. Yao, K. Wang, W. Jo, K. G. Webber, T. P. Comyn, J.-X. Ding, B. Xu, L.-Q. Cheng, M.-P. Zheng, Y.-D. Hou, J.-F. Li, Diffused phase transition boosts thermal stability of high-performance lead-free piezoelectrics, Advanced Functional Materials, 26(2016)1217-1224.
21) T.-R. Wei, G. Tan, X. Zhang, C.-F. Wu, J.-F. Li, V. P. Dravid, G. J. Snyder, M. G. Kanatzidis, Distinct Impact of Alkali-Ion Doping on Electrical Transport Properties of Thermoelectric p-type Polycrystalline SnSe, Journal of the American Chemical Society, 138(2016)8875-8882.
22) Y. Pan, J.-F. Li, Thermoelectric performance enhancement in n-type Bi2(TeSe)3 alloys owing to nanoscale inhomogeneity combined with a spark plasma textured-microstructure, NPG Asia Materials, 8(2016)e275.
23) W. Sun, J.-F. Li, Q. Yu, L.-Q. Cheng, Phase transition and piezoelectricity of sol-gel-processed Sm-doped BiFeO3 thin films on Pt(111)/Ti/SiO2/Si substrates, Journal of Materials Chemistry C, 3 (2015)2115-2122.
24) Y. Pan, T.-R. Wei,C.-F. Wu, J.-F. Li, Electrical and thermal transport properties of spark plasma sintered n-type Bi2Te3-xSex alloys: combined effect of point defect and Se content, Journal of Materials Chemistry C, 2(2015)17302-17306.
25) D. Wu, L.-D. Zhao, X. Tong, W. Li, L. J. Wu, Q. Tan, Y. L. Pei, L. Huang, J.-F. Li, Y. M. Zhu, M. G. Kanatzidis, J. G. He, JQ, Superior thermoelectric performance in PbTe-PbS pseudo-binary: extremely low thermal conductivity and modulated carrier concentration, Energy & Environmental Science, 8(2015) 2056-2068.
26) L.-D. Zhao, J. Q. He, D. Berardan, Y.-H. Lin, J.-F. Li, C.-W. Nan, N. Dragoe, BiCuSeO oxyselenides: new promising thermoelectric materials, Energy & Environmental Science, 7(2014)2900-2924
27) Z.-Y. Li and J.-F. Li, Fine-Grained and Nanostructured AgPbmSbTem+2 Alloys with High Thermoelectric Figure of Merit at Medium Temperature, Advanced Energy Materials, 4(2014)1300937.
28) Q. Tan, L-D. Zhao, J.-F. Li, C.-F. Wu, T.-R. Wei, Z.-B. Xing, M. G. Kanatzidis, Thermoelectrics with earth abundant elements: low thermal conductivity and high thermopower in doped SnS, Journal of Materials Chemistry A, 2(2014)17302-17306.
29) T.-R. Wei, H. Wang, Z. M. Gibbs, C.-F. Wu, G. J. Snyder, J.-F. Li, Thermoelectric properties of Sn-doped p-type Cu3SbSe4: a compound with large effective mass and small band gap, Journal of Materials Chemistry A, 2(2014)13527-13533.
30) L.-Q. Cheng, K. Wang, J.-F. Li, Y. M. Liu, J. Y. Li, Piezoelectricity of lead-free (K, Na)NbO3 nanoscale single crystals, Journal of Materials Chemistry C, 2(2014)9091-9098. (Front cover article).
31) Q. Yu, J.-F. Li, F.-Y. Zhu, J.-Y. Li, Domain evolution of tetragonal Pb(ZrxTi1-x) O-3 piezoelectric thin films on SrTiO3 (100) surfaces: combined effects of misfit strain and Zr/Ti ratio, Journal of Materials Chemistry C, 2(2014)5836-5841.
32) K. Wang, F.-Z. Yao, W. Jo, D. Gobeljic, V. V. Shvartsman, D. C. Lupascu, J.-F. Li, J. Rodel, Temperature-Insensitive (K, Na)NbO3-Based Lead-free Piezoactuator Ceramics, Advanced Functional Materials, 23, 4079-4086 (2013)
33) J. H. Li, Q. Tan, J.-F. Li, et. al., BiSbTe-Based Nanocomposites with High ZT: The SiC Nanodispersion on Thermoelectric Properties, Advanced Functional Materials, 23 (2013) 4317-4323.
34) F. Li, J.-F. Li, L.-D. Zhao, K. Xiang, Y. Liu, B.-P. Zhang, Y.-H. Lin, C.-W. Nan, H.-M. Zhu, Polycrystalline BiCuSeO oxide as a potential thermoelectric material, Energy & Environmental Science, 5 (2012) 7188-7195.
35) Y. Xu, Q. Yu, J.-F. Li, A facile method to fabricate vertically aligned (K, Na)NbO3 lead-free piezoelectric nanorods, Journal of Materials Chemistry, 22(2012)23221.
36) Y. Liu, L.-D. Zhao, Y. Liu, J. Lan, W. Xu, F. Li, B.-P. Zhang, D. Berardan, N. Dragoe, Y.-H. Lin, C.-W. Nan, J.-F. Li, and H. Zhu, Remarkable Enhancement in Thermoelectric Performance of BiCuSeO by Cu Deficiencies, Journal of the American Chemical Society, 133, (2011) 20112-20115
37) D.-W. Liu, J.-F. Li, Microfabrication of thermoelectric modules by patterned electrodeposition using a multi-channel glass template, Journal of Solid State Electrochemistry, 15[3] 479-484 (2011).
38) J.-F. Li, Z.-X. Zhu, and F.-P. Lai, Thickness-Dependent Phase Transition and Piezoelectric Response in Textured Nb-Doped Pb(Zr0.52Ti0.48)O3 Thin Films, J. Phys. Chem. C, 114, 41, (2010)17796-17801.
39) K. Wang, J.-F. Li, Domain Engineering of Lead-free Li-modified (K, Na)NbO3 Polycrystals with Highly Enhanced Piezoelectricity, Advanced Functional Materials, 20(2010) 1924-1929.
40) Z.-X. Zhu, J.-F. Li, Y. Y. Liu, J. Y. Li, Shifting of morphotropic phase boundary and superior piezoelectric response in Nb-doped Pb(Zr,Ti)O3 epitaxial thin films, Acta Materialia, 57 (2009) 4288–4295.
41) 34) M. Zhou, J.-F. Li, T. Kita, Nanostructured AgPbmSbTem+2 system bulk materials with enhanced thermoelectric performance, Journal of the American Chemical Society, 130 (2008) 4527-4532.
42) K. Wang, J.-F. Li, Analysis of crystallographic evolution in (Na,K)NbO3-based lead-free piezoceramics by x-ray diffraction, Applied Physics Letters, 91(2007) 262902.
43) J.-F. Li, K. Wang, B. P. Zhang, L. M. Zhang, Ferroelectric and piezoelectric properties of fine-grained Na0.5K0.5NbO3 lead-free piezoelectric ceramics prepared by spark plasma sintering, Journal of the American Ceramic Society 89 (2006) 706.
44) H. Wang, J.-F. Li, C.-W. Nan, M. Zhou, W.S. Liu, B.-P. Zhang and T. Kita, High-Performance Ag0.8Pb18+xSbTe20 thermoelectric bulk materials fabricated by mechanical alloying and spark plasma sintering, Applied Physics Letters, 88 (9) 092104 (2006).
45) J.-F. Li, K. Wang, B. P. Zhang, L. M. Zhang, Ferroelectric and piezoelectric properties of fine-grained Na0.5K0.5NbO3 lead-free piezoelectric ceramics prepared by spark plasma sintering, Journal of the American Ceramic Society 89 (2006) 706-709.
46) Y. H. Zhen, J.-F. Li, Normal sintering of (K,Na)NbO3-based ceramics: Influence of sintering temperature on densification, microstructure, and electrical properties, Journal of the American Ceramic Society, 89 (2006)3669-3675
47) W. Gong, J.-F. Li, C.-E Peng, Z. Gui and L. T. Li, In-Plane Aligned Pb(Zr, Ti)O3 Microbelts Fabricated by Near Migration and Restricted Growth, Advanced Materials, 17 (2005)1952-1956.
48) W. Gong, J.-F. Li*, X. C. Chu, Z. L. Gui and L. T. Li , Combined effect of preferential orientation and Zr/Ti atomic ratio on electrical properties of Pb(ZrxTi1-x)O3 thin films, Journal of Applied Physics, 96 [1](2004) 590-595.
49) J.-F. Li, S. Tanaka, T. Umeki, S. Sugimoto, M. Esashi, R. Watanabe, Microfabrication of Thermoelectric Microdevices by Silicon Molding Process, SENSORS AND ACTUATORS A-PHYSICAL 108 (2003)97-102.
50) J.-F. Li, K. Takagi, N. Terakubo, R. Watanabe, Electrical and mechanical properties of piezoelectric ceramic/metal composites in the Pb(Zr,Ti)O3/Pt system, Applied Physics Letters, 79, (2001)2441-2443.
51) J.-F. Li, W. Pan, F. Sato, R. Watanabe, Mechanical Properties of Polycrystalline Ti3SiC2 at Ambient and Elevated Temperatures, Acta Materialia, 49,937-945 (2001).
52) S. Wang, J.-F. Li, K. Wakabayashi, M. Esashi, R. Watanabe, Lost Silicon Mold Process for PZT Microstructures, Advanced Materials 11 (1999)873-876

Copyright © 2020 School of Materials Science and Engineering, Tsinghua University All Rights Reserved.