杨一君

博士、副教授

基本信息

办公电话:010-51685487 电子邮件: yjyang@bjtu.edu.cn
通讯地址:北京市海淀区上园村3号交大科技大厦 邮编:100044

教育背景

2012.09-2015.06 北京大学(联合培养) 化学与分子工程学院 物理化学 博士

2010.09-2015.06 中国科学院化学研究所(硕博连读) 物理化学 博士

2005.09-2009.06 四川大学 高分子科学与工程学院 高分子材料与工程专业 学士


个人简介:

杨一君,副教授,硕士研究生导师。2015年毕业于中国科学院化学研究所(博士期间与北京大学联合培养),师从于姚建年院士。2016年入职北京交通大学,长期从事无机纳米功能材料的制备及其在能源、电催化领域方面的应用研究,主要聚焦纳米材料微观几何结构上电子结构的调控对锂离子存储、电化学反应的作用机制的影响。截至2024年8月,在包括Joule、Angew. Chem.、Energy Environ. Sci.、Adv. Mater.、Nano Energy、Carbon、Chem. Eng. J.等国际知名学术期刊发表学术论文60余篇,其中一作、通讯作者文章16余篇。目前所有论文被引4500余次,H因子31;先后主持和参与了国家自然科学基金青年基金、科技部政府间合作项目重点研发计划、基金委重大研究计划培育项目等;入选了北京交通大学青年英才Ⅱ类人才计划。课题组有系统的合成、测试手段,将提供完善的研究平台与悉心的指导,诚挚欢迎具有材料纳米科学与技术、材料化学等方面背景或对相关研究感兴趣的学生保研或考研到我们课题组,共同成长、共同进步。

工作经历

2022.03-至今      北京交通大学 物理科学与工程学院 材料科学与工程系 副教授

2021.01-2022.02 北京交通大学 理学院物理系 副教授 (2021年获得北京交通大学青年英才人才项目)

2018.09-2020.12 北京交通大学 理学院物理系 讲师

2016.09-2018.08 北京交通大学 理学院物理系 师资博士后

2015.09-2016.09 清华大学 化学系 博士后

研究方向

  • 材料表面技术及功能材料
  • 材料工程

招生专业

  • 材料科学与工程硕士
  • 材料工程硕士

科研项目

  • 基本科研业务费: 氧化硅负极材料的设计合成与储锂机制的原位表征 , 2024-2026,主持,在研
  • 国家重点研发计划-项目: 高性能硅碳复合材料的设计、量产及其在锂离子电池应用与储能机制研究, 2021-2023,任务负责人,结题
  • 基本科研业务费人才基金: 新型弯曲结构的掺杂碳材料的制备及其钠电性能研究, 2019-2023,主持,结题
  • 国家重点研发计划-项目: 高活性Pt基磁性纳米复合催化材料的研制、催化机理及燃料电池应用, 2020-2022,参与,结题
  • 国家自然科学基金重大研究计划“培育项目”: 同步辐射高分辨XAS研究磁性贵金属合金团簇的成核和生长过程, 2020-2022,参与,结题
  • 中石化技术开发项目: 催化重整催化剂载体结构与性能构效关系研究及新型半再生重整催化剂的开发与应用, 2020-2022,参与,结题
  • 国家自然科学基金"青年基金": 掺杂石墨对低温锂离子电池性能提高与基于原位透射电镜的反应机制研究, 2019-2021,主持,结题
  • 中国博士后面上基金: 掺杂多层石墨烯低温锂离子电池机理研究, 2017-2018,主持,结题

教学工作

本科生课程:

《过渡金属化合物与无机材料》 双语教学 32学时

《化工原理》 双语教学 32学时

大学物理实验

《材料科学基础实验》


研究生课程:

《新能源材料物理与前沿》 16学时

论文/期刊

第一作者及通讯作者论文

1. Gao, Y.; Wang, J.; Sun, M.; Jing, Y.; Chen, L.; Liang, Z.; Yang, Y.*; Zhang, C.; Yao, J.*; Wang, X.*, Tandem Catalysts Enabling Efficient C-N Coupling toward the Electrosynthesis of Urea. Angewandte Chemie International Edition 2024, e202402215.

2. Jia, Z.; Yang, P.; Li, Y.; Gao, D.; Xia, J.*; Yang, Y.*; Wang, X.; Yang, Y.*, Enhancing the Structural Stability of LiCoO2 at Elevated Voltage via High-Valence Sb Doping. ACS Applied Energy Materials 2024, (9), 4207.

3. Xia, J.; Zhang, N.; Yi, D.; Lu, F.; Yang, Y.*; Wang, X.*; Wang, Y.*, Stabilizing 4.6 V LiCoO2 via Er and Mg Trace Doping at Li-Site and Co-Site Respectively. Small 2024, 2311578.

4. Yang, Y.; Liu, Q.; Wang, J.; Li, P.; Miao, C.; Liu, J.; Yang, Y.*; Wang, J.*; Wang, X.*, Hydroxy- or chlorine-anchored Pt single-atom in Al2O3: Which is better for propane dehydrogenation? AIChE Journal 2024, 70 (2), e18288.

5. Wang, H.; Chai, S.; Li, P.; Yang, Y.*; Wang, X.*, Non-oxidative Propane Dehydrogenation over Vanadium Doped Graphitic Carbon Nitride Catalysts. Catalysis Letters 2023, 153 (4), 1120-1129.

6. Gao, Y.; Wang, J.; Yang, Y.*; Wang, J.; Zhang, C.*; Wang, X.*; Yao, J., Engineering Spin States of Isolated Copper Species in a Metal–Organic Framework Improves Urea Electrosynthesis. Nano-Micro Letters 2023, 15 (1), 158.

7. Huang, J.; Liu, Q.; Li, P.; Ying, Y.; Chai, S.; Cui, Q.*; Yang, Y.*; Wang, X., Regulating Ni–O–V bond in nickel doped vanadium catalysts for propane dehydrogenation. Applied Catalysis A: General 2022, 644, 118819.

8. Zhao, N.; Zhang, F.; Zhan, F.; Yi, D.; Yang, Y.*; Cui, W.*; Wang, X.*, Fe3+-stabilized Ti3C2Tx MXene enables ultrastable Li-ion storage at low temperature. Journal of Materials Science & Technology 2021, 67, 156-164.

9. Zhao, N.; Yang, Y.*; Yi, D.; Xiao, Y.; Wang, K.; Cui, W.*; Wang, X.*, Regulating Fe–O bond in Ti3C2Tx MXene anode for high-capacity Li-ion batteries. Chemical Engineering Journal 2021, 422, 130018.

10. Zhao, N.; Yang, Y.*; Xiao, Y.; Wang, C.; Ha, M. N.; Cui, W.*; Wang, X.*, Unveiling the SEI layer formed on pillar-structured MXene anode towards enhanced Li-ion storage. Scripta Materialia 2021, 202, 113988.

11. Su, K.; Pan, L.; Zhang, Y.; Wang, C.; Yang, Y.*; Zhang, J.*; Su, H.; Wang, X.*, Atomistic uncovering Li+ diffusion behaviors in SnO2-Graphene hybrids. Carbon 2021, 183, 313-321.

12. Zhou, Y.#; Yang, Y.#; Hou, G.; Yi, D.; Zhou, B.; Chen, S.; Lam, T. D.; Yuan, F.; Golberg, D.; Wang, X.*, Stress-relieving defects enable ultra-stable silicon anode for Li-ion storage. Nano Energy 2020, 70, 104568.

13. Ma, W.; Wang, Y.; Yang, Y.*; Wang, X.; Yuan, Z.; Liu, X.*; Ding, Y.*, Temperature-Dependent Li Storage Performance in Nanoporous Cu–Ge–Al Alloy. ACS Applied Materials & Interfaces 2019, 11 (9), 9073-9082.

14. Liu, H.; Zhang, Y.; Dong, J.; Ye, T.; Hao, J.; Yang, Y.*; Jiang, X.; Kang, X.*; Bando, Y.; Wang, X.*, Curving effects of concave dodecahedral nanocarbons enable enhanced Li-ion storage. Journal of Materials Chemistry A 2018, 6 (30), 14894-14902.

15. Yang, Y.; Tang, D.-M.; Zhang, C.; Zhang, Y.; Liang, Q.; Chen, S.; Weng, Q.; Zhou, M.; Xue, Y.; Liu, J.; Wu, J.; Cui, Q. H.; Lian, C.; Hou, G.; Yuan, F.; Bando, Y.; Golberg, D.; Wang, X., “Protrusions” or “holes” in graphene: which is the better choice for sodium ion storage? Energy & Environmental Science 2017, 10 (4), 979-986.

16. Yang, Y.; Liu, X.; Dai, Z.; Yuan, F.; Bando, Y.; Golberg, D.; Wang, X., In Situ Electrochemistry of Rechargeable Battery Materials: Status Report and Perspectives. Advanced Materials 2017, 29 (31), 1606922.



其他论文 

1.     Xia, J.; Zhang, N.; Yang, Y.; Chen, X.; Wang, X.; Pan, F.; Yao, J., Lanthanide Contraction Builds Better High-Voltage LiCoO2 Batteries. Adv. Funct. Mater. 2023, 33 (8), 2212869.

2.     Zhang, Y.; Li, S.; Sun, C.; Wang, P.; Yang, Y.; Yi, D.; Wang, X.; Yao, J., Understanding and Modifying the Scaling Relations for Ammonia Synthesis on Dilute Metal Alloys: From Single-Atom Alloys to Dimer Alloys. ACS Catalysis 2022, 12 (15), 9201-9212.

3.     Yang, Z.; Liu, C.; Du, Y.; Yang, Y.; Jin, H.; Liu, X.; Ding, F.; Bai, L.; OuYang, Y.; Yuan, F., Multi-hierarchical earbuds-ball-like silicon suboxide-carbon hybrids design for high-performance lithium storage. Composites Part B: Engineering 2022, 238, 109951.

4.     Lu, Z.; Wang, J.; Cheng, X.; Xie, W.; Gao, Z.; Zhang, X.; Xu, Y.; Yi, D.; Yang, Y.; Wang, X.; Yao, J., Riemannian Surface on Carbon Anodes Enables Li-Ion Storage at -35 °C. ACS Central Science 2022, 8 (7), 905-914.

5.     Li, J.; Cai, Y.; Cui, Y.; Wu, H.; Da, H.; Yang, Y.; Zhang, H.; Zhang, S., Fabrication of asymmetric bilayer solid-state electrolyte with boosted ion transport enabled by charge-rich space charge layer for ‐20~70°C lithium metal battery. Nano Energy 2022, 95, 107027.

6.     Gao, Z.; Lu, Z.; Zhang, Y.; Xia, J.; Zhang, X.; Sun, C.; Yang, Y.; Xu, Y.; Wang, K.; Wang, X.; Yao, J., Regulating interfacial desolvation via a weakly coordinating solvent molecule enhances Li-ion storage at subzero temperatures. Chem. Eng. Sci. 2022, 254, 117633.

7.     Zhang, X.; Wang, T.; Yang, Y.; Zhang, X.; Lu, Z.; Wang, J.; Sun, C.; Diao, Y.; Wang, X.; Yao, J., Breaking the Stable Triangle of Carbonate via W–O Bonds for Li-CO2 Batteries with Low Polarization. ACS Energy Letters 2021, 6 (10), 3503-3510.

8.     Yang, Z.; Du, Y.; Yang, Y.; Jin, H.; Shi, H.; Bai, L.; OuYang, Y.; Ding, F.; Hou, G.; Yuan, F., Large-scale production of highly stable silicon monoxide nanowires by radio-frequency thermal plasma as anodes for high-performance Li-ion batteries. J. Power Sources 2021, 497, 229906.

9.     Liu, K.; Huang, K.; Lv, A.; Ye, W.; Yang, Y.; Shen, K.; Zhi, J.; Wang, H.; Zhang, R.; Wang, J.; Ma, H.; Shi, H.; Yao, W.; An, Z.; Huang, W., Tunable microstructures of ultralong organic phosphorescence materials. Chemical communications 2021, 57 (59), 7276-7279.

10.   Du, Y.; Yang, Z.; Yang, Y.; Yang, Y.; Jin, H.; Hou, G.; Yuan, F., Mussel-pearl-inspired design of Si/C composite for ultrastable lithium storage anodes. J. Alloys Compd. 2021, 872, 159717.

11.   Du, Y.; Yang, Z.; Bai, L.; Ding, F.; Jin, H.; Yang, Y.; Lam, T. D.; Hou, G.; Yuan, F., Si/FeSi2 Nanoparticles Prepared by Thermal Plasma with Stress-releasing Effect for Li-ion Storage. ChemNanoMat 2021, 7 (4), 467-475.

12.   Chen, S.; Pan, L.; Ye, T.; Lei, N.; Yang, Y.; Wang, X., The lattice reconstruction of Cs-introduced FAPbI1.80Br1.20 enables improved stability for perovskite solar cells. RSC Advances 2021, 11 (7), 3997-4005.

13.   Zhou, Y.; Yang, Y.; Hou, G.; Yi, D.; Zhou, B.; Chen, S.; Tran Dai, L.; Yuan, F.; Golberg, D.; Wang, X., Stress-relieving defects enable ultra-stable silicon anode for Li-ion storage. Nano Energy 2020, 70, 104568.

14.   Ye, T.; Pan, L.; Yang, Y.; Liang, Q.; Lu, Y.; Sui, M.; Golberg, D.; Wang, X., Synthesis of Highly-Oriented Black CsPbI3 Microstructures for High-Performance Solar Cells. Chem. Mater. 2020, 32 (7), 3235-3244.

15.   Wang, H.; Xia, J.; Pan, L.; Minh Ngoc, H.; Yang, Y.; Wang, X., Lithium-ion storage behavior of ZIFs polyhedral carbons with topological structure. Chem. Eng. Sci. 2020, 221, 115708.

16.   Pan, Y.; Qian, Y.; Zheng, X.; Chu, S.-Q.; Yang, Y.; Ding, C.; Wang, X.; Yu, S.-H.; Jiang, H.-L., Precise fabrication of single-atom alloy co-catalyst with optimal charge state for enhanced photocatalysis. National Science Review 2020, 8 (1).

17.   Pan, L.; Dong, J.; Yi, D.; Yang, Y.; Wang, X., Recent Advances in Atomic-scale Storage Mechanism Studies of Two-dimensional Nanomaterials for Rechargeable Batteries Beyond Li-ion. Chemical Research in Chinese Universities 2020, 36 (4), 560-583.

18.   Lu, Z.; Gao, D.; Yi, D.; Yang, Y.; Wang, X.; Yao, J., sp2/sp3 Hybridized Carbon as an Anode with Extra Li-Ion Storage Capacity: Construction and Origin. ACS Central Science 2020, 6 (8), 1451-1459.

19.   Lu, F.; Liu, J.; Xia, J.; Yang, Y.; Wang, X., Engineering C-N Moieties in Branched Nitrogen-Doped Graphite Tubular Foam toward Stable Li+-Storage at Low Temperature. Industrial & Engineering Chemistry Research 2020, 59 (13), 5858-5864.

20.   Liu, X.; Wang, Y.; Yang, Y.; Lv, W.; Lian, G.; Golberg, D.; Wang, X.; Zhao, X.; Ding, Y., A MoS2/Carbon hybrid anode for high-performance Li-ion batteries at low temperature. Nano Energy 2020, 70, 104550.

21.   Ke, Q.; Yi, D.; Jin, Y.; Lu, F.; Zhou, B.; Zhan, F.; Yang, Y.; Gao, D.; Yan, P.; Wan, C.; Cui, P.; Golberg, D.; Yao, J.; Wang, X., Manganese Doping in Cobalt Oxide Nanorods Promotes Catalytic Dehydrogenation. ACS Sustainable Chemistry & Engineering 2020, 8 (14), 5734-5741.

22.   Dilpazir, S.; Ren, P.; Liu, R.; Yuan, M.; Imran, M.; Liu, Z.; Xie, Y.; Zhao, H.; Yang, Y.; Wang, X.; Streb, C.; Zhang, G., Efficient Tetra-Functional Electrocatalyst with Synergetic Effect of Different Active Sites for Multi-Model Energy Conversion and Storage. ACS Applied Materials & Interfaces 2020, 12 (20), 23017-23027.

23.   Zhong, Y.; Ma, Z.; Wang, F.; Wang, X.; Yang, Y.; Liu, Y.; Zhao, X.; Li, J.; Du, H.; Zhang, M.; Cui, Q.; Zhu, S.; Sun, Q.; Wan, H.; Tian, Y.; Liu, Q.; Wang, W.; Garcia, K. C.; Dai, H., In vivo molecular imaging for immunotherapy using ultra-bright near-infrared-IIb rare-earth nanoparticles. Nat. Biotechnol. 2019, 37 (11), 1322-1331.

24.   Yu, H.; Zhang, Q.; Zhang, Y.; Lu, K.; Han, C.; Yang, Y.; Wang, K.; Wang, X.; Wang, M.; Zhang, J.; Hu, B., Using Mechanical Stress to Investigate the Rashba Effect in Organic Inorganic Hybrid Perovskites. Journal of Physical Chemistry Letters 2019, 10 (18), 5446-5450.

25.   Xu, Y.; Zhang, F.; Sheng, T.; Ye, T.; Yi, D.; Yang, Y.; Liu, S.; Wang, X.; Yao, J., Clarifying the controversial catalytic active sites of Co3O4 for the oxygen evolution reaction. Journal of Materials Chemistry A 2019, 7 (40), 23191-23198.

26.   Wang, M.; Xu, Y. H.; Lu, F.; Zhu, Z.; Dong, J. Y.; Fang, D. L.; Zhou, J.; Yang, Y. J.; Zhong, Y. T.; Chen, S. M.; Bando, Y.; Golberg, D.; Wang, X., Enhanced Li-Ion-Storage Performance of MoS2 through Multistage Structural Design. Chemelectrochem 2019, 6 (5), 1475-1484.

27.   Pan, L.; Zhang, Y.; Lu, F.; Du, Y.; Lu, Z.; Yang, Y.; Ye, T.; Liang, Q.; Bando, Y.; Wang, X., Exposed facet engineering design of graphene-SnO2 nanorods for ultrastable Li-ion batteries. Energy Storage Materials 2019, 19, 39-47.

28.   Lu, P.; Yang, Y.; Yao, J.; Wang, M.; Dipazir, S.; Yuan, M.; Zhang, J.; Wang, X.; Xie, Z.; Zhang, G., Facile synthesis of single-nickel-atomic dispersed N-doped carbon framework for efficient electrochemical CO2 reduction. Applied Catalysis B-Environmental 2019, 241, 113-119.

29.   Lu, F.; Zhou, M.; Su, K.; Ye, T.; Yang, Y.; Lam, T. D.; Bando, Y.; Wang, X., Enhancing Capacitance of Nickel Cobalt Chalcogenide via Interface Structural Design. ACS Applied Materials & Interfaces 2019, 11 (2), 2082-2092.

30.   Liu, Y.; Zhang, Y.; Du, Y.; Zhou, Y.; Hou, G.; Tran Dai, L.; Yang, Y.; Yuan, F.; Wang, X., Kilogram-Scale Fabrication of Si/C Bean-Structured Materials as Stable Anodes for Li-Ion Storage. Energy Technology 2019, 7 (7), 1900037.

31.   Hou, G.; Cheng, B.; Yang, Y.; Du, Y.; Zhang, Y.; Li, B.; He, J.; Zhou, Y.; Yi, D.; Zhao, N.; Bando, Y.; Golberg, D.; Yao, J.; Wang, X.; Yuan, F., Multiscale Buffering Engineering in Silicon-Carbon Anode for Ultrastable Li-Ion Storage. ACS Nano 2019, 13 (9), 10179-10190.

32.   He, X.; Wang, Y.; Li, K.; Wang, X.; Liu, P.; Yang, Y.; Liao, Q.; Zhai, T.; Yao, J.; Fu, H., Oriented Growth of Ultrathin Single Crystals of 2D Ruddlesden-Popper Hybrid Lead Iodide Perovskites for High-Performance Photodetectors. ACS Applied Materials & Interfaces 2019, 11 (17), 15905-15912.

33.   Guo, D.; Pan, L.; Hao, J.; Han, L.; Yi, D.; Wang, Y.; Yang, Y.; Yoshio, B.; Wang, X., Nanosheets-in-nanotube Co3O4-carbon array design enables stable Li-ion storage. Carbon 2019, 147, 501-509.

34.   Zhou, M.; Weng, Q.; Popov, Z. I.; Yang, Y.; Antipina, L. Y.; Sorokin, P. B.; Wang, X.; Bando, Y.; Golberg, D., Construction of Polarized Carbon-Nickel Catalytic Surfaces for Potent, Durable, and Economic Hydrogen Evolution Reactions. ACS Nano 2018, 12 (5), 4148-4155.

35.   Zhang, Y.; Lu, F.; Pan, L.; Xu, Y.; Yang, Y.; Bando, Y.; Golberg, D.; Yao, J.; Wang, X., Improved cycling stability of NiS2 cathodes through designing a "kiwano" hollow structure. Journal of Materials Chemistry A 2018, 6 (25), 11978-11984.

36.   Yang, H.; Zhou, Y.; Yang, Y.; Yi, D.; Ye, T.; Tran Dai, L.; Golberg, D.; Bao, B.; Yao, J.; Wang, X., Crystal facet engineering induced anisotropic transport of charge carriers in a perovskite. Journal of Materials Chemistry C 2018, 6 (43), 11707-11713.

37.   Yan, M.; Ma, X.; Yang, Y.; Wang, X.; Cheong, W.-C.; Chen, Z.; Xu, X.; Huang, Y.; Wang, S.; Lian, C.; Li, Y., Biofabrication Strategy for Functional Fabrics. Nano Letters 2018, 18 (9), 6017-6021.

38.   Liu, X.; Zhang, R.; Yu, W.; Yang, Y.; Wang, Z.; Zhang, C.; Bando, Y.; Golberg, D.; Wang, X.; Ding, Y., Three-dimensional electrode with conductive Cu framework for stable and fast Li-ion storage. Energy Storage Materials 2018, 11, 83-90.

39.   Hou, G.; Du, Y.; Cheng, B.; Yang, Y.; Fang, D.; Kong, X.; Li, B.; He, J.; Yang, J.; Wang, X.; Yuan, F., Enhanced Capacity of NiO Nanocubes with High Dispersion and Exposed Facets Reinforced by Thermal Plasma. ACS Applied Nano Materials 2018, 1 (11), 5981-5988.

40.   Cui, Q.; Zhong, Y.; Pan, L.; Zhang, H.; Yang, Y.; Liu, D.; Teng, F.; Bando, Y.; Yao, J.; Wang, X., Recent Advances in Designing High-Capacity Anode Nanomaterials for Li-Ion Batteries and Their Atomic-Scale Storage Mechanism Studies. Advanced Science 2018, 5 (7), 1700902.

41.   Wu, C.; Yang, Y.; Dong, D.; Zhang, Y.; Li, J., In Situ Coupling of CoP Polyhedrons and Carbon Nanotubes as Highly Efficient Hydrogen Evolution Reaction Electrocatalyst. Small 2017, 13 (15), 1602873.

42.   Weng, Q.; Kvashnin, D. G.; Wang, X.; Cretu, O.; Yang, Y.; Zhou, M.; Zhang, C.; Tang, D.-M.; Sorokin, P. B.; Bando, Y.; Golberg, D., Tuning of the Optical, Electronic, and Magnetic Properties of Boron Nitride Nanosheets with Oxygen Doping and Functionalization. Advanced Materials 2017, 29 (28), 1700695.

43.   Dong, J.; Xue, Y.; Zhang, C.; Weng, Q.; Dai, P.; Yang, Y.; Zhou, M.; Li, C.; Cui, Q.; Kang, X.; Tang, C.; Bando, Y.; Golberg, D.; Wang, X., Improved Li+ Storage through Homogeneous N-Doping within Highly Branched Tubular Graphitic Foam. Advanced Materials 2017, 29 (6), 1603692.

44.   Cui, Q.; Yang, Y.; Li, J.; Teng, F.; Wang, X., Material and Device Architecture Engineering Toward High Performance Two-Dimensional (2D) Photodetectors. Crystals 2017, 7 (5), 149.


专著/译著

专利

授权专利

1.   ZL202011555224.0,一种可控氧化的四三苯基膦钯催化剂及其制备方法和用途,王熙,王艳,杨一君,陆飞

2.   ZL202011553424.2,一种正庚烷重整的高活性催化剂及其制备方法与用途,王熙,柴姗姗,杨一君,杜宇庭

申请中专利

1.   202311211638.5,一种硼掺杂复合硅基锂离子电池负极材料及其制备方法,杨一君,刘子琦,王崇,王熙


软件著作权

获奖与荣誉

1、北京市自然科学奖二等奖,掺杂策略设计先进电化学材料及关键科学问题研究,第三完成人

社会兼职

以下期刊审稿人:Energy Storage Materials、Composites Part B EngineeringElectrochimica ActaIonicsJournal of Alloys and CompoundsHeliyonCarbonMaterials Today SustainabilityJournal of Energy Storage等