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2024年，威尼斯432888cam教学成果奖（本科）一等奖

2024年，专业学位研究生优秀教学案例银牌案例奖

2024年，威尼斯432888cam教学成果奖（研究生）二等奖

2022年，威尼斯432888cam校级优秀教学质量奖二等奖

2022年，威尼斯432888cam优秀本科生毕业设计（论文）二等奖指导教师

2019年，威尼斯432888cam校级优秀教学质量奖一等奖

2019年，威尼斯432888cam优秀本科生全程导师奖

2016年，北京市优秀人才青年骨干个人

2016年，中国硅酸盐学会第八届无机非金属材料专题科研创意奖

2015年，清华大学优秀博士论文

代表性论文

[1] Li-Qian Cheng, Jia-Xin Liu, Yuqi Jiang*, et al. Fine-Grain Densification in Faceted Grain Ceramics Via Chemical Modification. Advanced Functional Materials, 2025, e12006.

[2] Li-Qian Cheng, Xinyuan Xie, Kai Chen, et al. V/F Co-Doped TNO Anode Enables Superior High-Power and Long-Life Li-Ion Batteries. ACS Applied Materials & Interfaces, 2025, 17(8), 40433-40442.

[3] Li-Qian Cheng*, Wanben Liu, Qingna Li, et al. Enhancing electrocaloric performance by compositionally graded laminated structure design in lead-free BZT-BST ceramics. Ceramics International, 2025, 51(21), 34789-34794.

[4] Li-Qian Cheng, Yongke Yan*, Zhiping Wang, et al. Electrocaloric materials and applications based on multilayer ceramic capacitors. Journal of Materiomics, 2025, 11(5), 101056.

[5] Li-Qian Cheng*, Zhiping Wang, Zhenhua Ma, et al. Synergistic effects of grain orientation and microstructure modification in PMN-PT electrocaloric ceramics. International Journal of Applied Ceramic Technology, 2025, doi.org/10.1111/ijac.70005.

[6] Li-Qian Cheng, Zhengyu Li, Sihan Wang, et al. A quantitative study of electrocaloric performance differences between bulk and MLCC-structured PMN-PT ferroelectric ceramics. Journal of Materials Science, 2025, 60(8), 3890-3898.

[7] Li-Qian Cheng, Jingye Pan, Kai Chen*, et al. Synergistic effects of charge redistribution and morphology regulation in Mo-doped TiNb₂O₇ anodes for solid-state battery applications. Journal of Materials Science, 2025, 60(6), 3014-3025.

[8] Li-Qian Cheng, Xinyuan Xie, Kai Chen, et al. Enhancing the electrochemical properties of TiNb₂O₇ anodes with SP-CNT binary conductive agents for both liquid and solid state lithium ion batteries. RSC Advances, 2024, 14(22), 15722-15729.

[9] Li-Qian Cheng*, Yijuan He, Kai Chen, et al. Facile fabrication of high performance TiNb₂O₇ anode for large-scale electrical energy storage. Journal of Materials Chemistry A, 2022, 10(34), 17586-17592.

[10] Li-Qian Cheng*, Zhenhua Ma, Jingtong Lu, et al. Grain-orientation-engineered PMN-10PT ceramics for electrocaloric applications. Journal of the American Ceramic Society, 2022, 106(2), 1194-1202.

[11] Li-Qian Cheng*, Guozheng Jiang, Zhenhua Ma, et al. Enhanced electrocaloric performance within wide temperature span in Al-doped BaZr_0.2Ti_0.8O₃ ceramics. Journal of Materials Science: Materials in Electronics, 2022, 33(33), 24986-24994.

[12] Li-Qian Cheng, Yongke Yan*, Xiaotian Li, et al. Electrocaloric Performance of Multilayer Ceramic Chips: Effect of Geometric Structure Induced Internal Stress. ACS Applied Materials & Interfaces, 2021, 13(32), 38508-38516.

[13] Li-Qian Cheng*, Mei Feng, Yiwen Sun, et al. Synthesis and characterization of two-dimensional lead-free (K, Na)NbO₃ micro/nano piezoelectric structures. Journal of Advanced Ceramics, 2020, 9(1), 27-34.

[14] Li-Qian Cheng*, Ke Wang, Jing-Feng Li. One dimensional lead-free (K,Na)NbO₃ nanostructures for a flexible self-powered sensor. Dalton transactions, 2019, 48, 3984-3989.

[15] Li-Qian Cheng*, Ze Xu, H.-C. Thong, et. al. Influence of spark plasma sintering temperature on piezoelectric properties of PZT-PMnN piezoelectric ceramics. Journal of Materials Science: Materials in Electronics, 2019, 30, 5691-5697.

[16] Li-Qian Cheng*, Ze Xu, Chunlin Zhao, et al. Significantly improved piezoelectric performance of PZT-PMnN ceramics prepared by spark plasma sintering. RSC Advances, 2018, 35594-35599.

[17] Li-Qian Cheng, Jing-Feng Li*, A review on one dimensional perovskite nanocrystals for piezoelectric applications. Journal of Materiomics, 2016, 2, 25-36.

[18] Li-Qian Cheng, Ke Wang, Jing-Feng Li*, Yuanming Liu, Jiangyu Li*. Piezoelectricity of Lead-Free (K,Na)NbO₃ Nanoscale Single Crystals. Journal of Materials Chemistry C, 2014, 2(43), 9091-9098.（Front cover article）

[19] Li-Qian Cheng, Ke Wang, Jing-Feng Li*. Synthesis of highly piezoelectric lead-free (K,Na)NbO₃ one-dimensional perovskite nanostructures. Chemical Communications, 2013, 49(38), 4003-4005.

[20] Li-Qian Cheng, Ke Wang, Qi Yu, Jing-Feng Li *. Structure and composition characterization of lead-free (K, Na)NbO₃ piezoelectric nanorods synthesized by the molten-salt reaction. Journal of Materials Chemistry C, 2014, 2(8), 1519-1524.

[21] Li-Qian Cheng, Ke Wang, Fang-Zhou Yao, et al. Composition Inhomogeneity due to Alkaline Volatilization in Li-Modified (K, Na)NbO₃ Lead-Free Piezoceramics. Journal of the American Ceramic Society, 2013, 97(9), 2693-2695.

[22] Li-Qian Cheng, Jia-Jun Zhou, Ke Wang, Jing-Feng Li*, Q.-M. Wang. Influence of ball milling on sintering behavior and electrical properties of (Li,Na,K)NbO₃ lead-free piezoceramics. Journal of Materials Science, 2012, 47(19), 6908-6914.

[23] Li-Qian Cheng, Ke Wang, Jing-Feng Li*. Synthesis of Complex Niobate Nanostructures via Molten-Salt Reaction: Effect of ZrO₂ on Product Morphology. Materials Letters, 2015, 138,128-131.

[24] 陈凯, 程丽乾*, 等. 聚偏氟乙烯基聚合物电解质膜在高能量密度金属锂负极固液混合电池中的应用, 硅酸盐学报, 2019.（封面文章）

[25] 陈凯*, 程丽乾. 体型无机全固态锂离子电池研究进展, 硅酸盐学报, 2017, 45(6), 785-792.（综述）