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吕浡
创建时间:  2019-03-01  丁珏   浏览次数:

59CA

姓名:吕浡

办公室:宝山校区HE306b

通信地址:上海市上大路99号HE306b,邮编:200444

电子邮件:bo_lu @shu.edu.cn


【工作经历】

2025/03-至今, 上海大学,力学与工程科学学院,研究员

2020/03-2025/03,上海大学,力学与工程科学学院,副研究员

2017/02-2020/03,上海大学,力学与工程科学学院,讲师


【教育经历】

2014/09-2015/09 肯塔基大学,化学与材料工程,联合培养博士

2006/09-2016/10 上海大学,力学,理学学士、工学硕士、工学博士


【研究方向】

能源材料力学——力学引导的锂离子电池性能提升方法

近期主要兴趣:电池制备工艺中的力学问题、电池系统安全性问题


【近五年发表的代表性论文】

[1] Z Shi, Y Xiong, X Chen, H Gao, Y Bao, Y Song, B Lu*, J Zhang, Bidirectional machine-learning framework for tailored battery electrode structures via rheology-optimized drying. Int J Mech Sci, 2026, 310: 111121.

[2] S Wang, B Lu*, J Zhang*, Understanding the layered silicon/graphite composite electrode design from the perspective of porosity evolution. Acta Mech Solida Sin, 2025, 38: 470-482.

[3] M Li, H Liu, Y Song, B Lu*, J Zhang*, In situ characterization of competitive (de)lithiation in silicon/graphite composite electrodes via electrode curvature measurement. ChemElectroChem, 2025, 12: e202400614.

[4] H Gao, Y Xiong, B Rui, Y Bao, Y Song, B Lu*, J Zhang, Chocolate pattern-inspired flexible thick electrodes: A facile mechanical imprinting method. Chem Eng J, 2024, 501: 157266.

[5] Y Xiong, B Rui, S Wang, Y Song, B Lu*, J Zhang*, Safety-enhanced battery modules with actively switchable cooling and anti-impact functions. Int J Mech Sci, 2024, 282: 109641.

[6] J Wu, B Lu*, Y Song, J Zhang, SEI-related feigned death induced by partial cycling of graphite electrodes in lithium-ion batteries. J Energy Storage, 2024, 81: 110390.

[7] Y Xiong, B Lu*, Y Song, J Zhang, Analysis of thermal management and anti-mechanical abuse of multi-functional battery modules based on magneto-sensitive shear thickening fluid. Appl Math Mech, 2024, 45: 529-542.

[8] Y Xiong, B Lu*, Y Zhao*, Y Song, J Zhang*, A coupled mechanical-electrochemical phase-field formulation for understanding the evolution of lithiated-silicon sponge. J Mech Phys Solids, 2023, 179: 105399.

[9] B Rui, B Lu*, Y Song, J Zhang, A pre-strain strategy of current collectors for suppressing electrode debonding in lithium-ion batteries. Appl Math Mech, 2023, 44: 547-560.

[10] Z Zhou, B Lu*, Y Qian, X Chen, Y Song, J Zhang, A data-driven approach to rapidly identify the critical current of fast-charging lithium-ion batteries. J Electrochem Soc, 2023, 170: 120533.

[11] S Zhu, B Lu*, B Rui, Y Song, J Zhang, Revealing the quantitative connection between electrode-level cracks and capacity fading of silicon electrodes in lithium-ion battery. Electrochemistry, 2023, 91: 127002.

[12] K Song, B Lu*, Y He*, Y Song, J Zhang, Modulus estimation of composites with high porosity, high particle volume fraction, and particle eigenstrain: application to the LIB active layer with a bridged-particle mesostructure. Energies, 2023, 16: 1424.

[13] X Li, Y Zhao, Y Song, J Zhang, B Lu*, Macroscopic architecture design of lithium metal electrodes: impacts of millimeter-size hollows on economization, cyclability, and utilization. J Electrochem En Conv Stor, 2023, 20: 021005.

[14] B Sun, Y Zhao, Y Song, J Zhang, B Lu*, Understanding modulus variation of the active layers of silicon composite electrodes. Acta Mech Solida Sin, 2022, 35: 987-995.

[15] Y Zhao, D Shi, B Lu*, J Zhang, Stress-induced uphill diffusion with interfacial contact loss in solid-state electrodes. Acta Mech Solida Sin, 2022, 35: 113-128.

[16] B Lu*, Y Yuan, Y Bao, Y Zhao, Y Song, J Zhang*, Mechanics-based design of lithium-ion batteries: A perspective. Phys Chem Chem Phys, 2022, 24: 29279-29297.

[17] Y Qian, B Lu*, Y Bao, Y Zhao, Y Song, J Zhang, Prelithiation design for suppressing delamination in lithium-ion battery electrodes. Appl Math Mech, 2021, 42: 1703-1716.

[18] E Gao, B Lu*, Y Zhao, J Feng, Y Song, J Zhang, Stress-regulated protocols for fast charging and long cycle life in lithium-ion batteries: Modeling and experiments. J Electrochem Soc, 2021, 168: 060549.

[19] S Wen, B Lu*, Y Zhao, Y Song, J Zhang, Feigned death induced by partial delithiation in silicon composite electrodes. J Power Sources, 2021, 495: 229763.


【科研项目】

[1] 国家自然科学基金面上项目,正向利用活性层裂纹的厚电极离子通道构建原理与力学调控,主持,52.39万

[2] 国家自然科学基金面上项目,锂离子电池高容量复合电极的损伤协同演化与电化学性能调控,主持,62万

[3] 国家自然科学基金青年项目,锂离子电池性能退化与分层新表面生成的关联机理,主持,25万

[4] 某知名终端企业横向项目,主持,56.032万


【所获荣誉】

[1] 上海市力学学会优秀力学学者,2020

[2] 上海大学蔡冠深优秀青年教师,2020

[3] 首批国家级一流本科课程骨干(弹性力学),2020,排名第四


【讲授课程】

[1] 弹性力学 (本科生,首批国家级一流本科课程)

[2] 高等固体力学 (硕士生)


【学术兼职】

[1] 中国力学学会电子电磁器件力学工作组组员,2020-至今

[2] 上海市力学学会教育工作委员会副主任、固体力学专业委员会委员、青年工作委员会委员,2024-至今

[3] Acta Mech Solida Sin青年编委,2025-至今

[4] Theor Appl Mech Lett青年编委,2025-至今


【科研团队】

本团队自2010 年起开始从事锂离子电池力学问题的研究,是国内力学界最先开始研究锂离子电池的团队之一,在国际上率先针对电极尺度的应力、损伤演化和力-电化学耦合机理开展了工作,有较好的工作积累、完备的计算/实验设备,已取得一系列创新性成果。欢迎对储能基础理论和技术研发有兴趣的同学加入!

上一条:胡宏玖

下一条:刘宇陆

版权所有 © 上海大学   沪ICP备09014157   沪公网安备31009102000049号  
地址:上海市宝山区上大路99号   邮编:200444   电话查询  
技术支持:上海大学信息化工作办公室   联系我们   
吕浡
创建时间:  2019-03-01  丁珏   浏览次数:   

59CA

姓名:吕浡

办公室:宝山校区HE306b

通信地址:上海市上大路99号HE306b,邮编:200444

电子邮件:bo_lu @shu.edu.cn


【工作经历】

2025/03-至今, 上海大学,力学与工程科学学院,研究员

2020/03-2025/03,上海大学,力学与工程科学学院,副研究员

2017/02-2020/03,上海大学,力学与工程科学学院,讲师


【教育经历】

2014/09-2015/09 肯塔基大学,化学与材料工程,联合培养博士

2006/09-2016/10 上海大学,力学,理学学士、工学硕士、工学博士


【研究方向】

能源材料力学——力学引导的锂离子电池性能提升方法

近期主要兴趣:电池制备工艺中的力学问题、电池系统安全性问题


【近五年发表的代表性论文】

[1] Z Shi, Y Xiong, X Chen, H Gao, Y Bao, Y Song, B Lu*, J Zhang, Bidirectional machine-learning framework for tailored battery electrode structures via rheology-optimized drying. Int J Mech Sci, 2026, 310: 111121.

[2] S Wang, B Lu*, J Zhang*, Understanding the layered silicon/graphite composite electrode design from the perspective of porosity evolution. Acta Mech Solida Sin, 2025, 38: 470-482.

[3] M Li, H Liu, Y Song, B Lu*, J Zhang*, In situ characterization of competitive (de)lithiation in silicon/graphite composite electrodes via electrode curvature measurement. ChemElectroChem, 2025, 12: e202400614.

[4] H Gao, Y Xiong, B Rui, Y Bao, Y Song, B Lu*, J Zhang, Chocolate pattern-inspired flexible thick electrodes: A facile mechanical imprinting method. Chem Eng J, 2024, 501: 157266.

[5] Y Xiong, B Rui, S Wang, Y Song, B Lu*, J Zhang*, Safety-enhanced battery modules with actively switchable cooling and anti-impact functions. Int J Mech Sci, 2024, 282: 109641.

[6] J Wu, B Lu*, Y Song, J Zhang, SEI-related feigned death induced by partial cycling of graphite electrodes in lithium-ion batteries. J Energy Storage, 2024, 81: 110390.

[7] Y Xiong, B Lu*, Y Song, J Zhang, Analysis of thermal management and anti-mechanical abuse of multi-functional battery modules based on magneto-sensitive shear thickening fluid. Appl Math Mech, 2024, 45: 529-542.

[8] Y Xiong, B Lu*, Y Zhao*, Y Song, J Zhang*, A coupled mechanical-electrochemical phase-field formulation for understanding the evolution of lithiated-silicon sponge. J Mech Phys Solids, 2023, 179: 105399.

[9] B Rui, B Lu*, Y Song, J Zhang, A pre-strain strategy of current collectors for suppressing electrode debonding in lithium-ion batteries. Appl Math Mech, 2023, 44: 547-560.

[10] Z Zhou, B Lu*, Y Qian, X Chen, Y Song, J Zhang, A data-driven approach to rapidly identify the critical current of fast-charging lithium-ion batteries. J Electrochem Soc, 2023, 170: 120533.

[11] S Zhu, B Lu*, B Rui, Y Song, J Zhang, Revealing the quantitative connection between electrode-level cracks and capacity fading of silicon electrodes in lithium-ion battery. Electrochemistry, 2023, 91: 127002.

[12] K Song, B Lu*, Y He*, Y Song, J Zhang, Modulus estimation of composites with high porosity, high particle volume fraction, and particle eigenstrain: application to the LIB active layer with a bridged-particle mesostructure. Energies, 2023, 16: 1424.

[13] X Li, Y Zhao, Y Song, J Zhang, B Lu*, Macroscopic architecture design of lithium metal electrodes: impacts of millimeter-size hollows on economization, cyclability, and utilization. J Electrochem En Conv Stor, 2023, 20: 021005.

[14] B Sun, Y Zhao, Y Song, J Zhang, B Lu*, Understanding modulus variation of the active layers of silicon composite electrodes. Acta Mech Solida Sin, 2022, 35: 987-995.

[15] Y Zhao, D Shi, B Lu*, J Zhang, Stress-induced uphill diffusion with interfacial contact loss in solid-state electrodes. Acta Mech Solida Sin, 2022, 35: 113-128.

[16] B Lu*, Y Yuan, Y Bao, Y Zhao, Y Song, J Zhang*, Mechanics-based design of lithium-ion batteries: A perspective. Phys Chem Chem Phys, 2022, 24: 29279-29297.

[17] Y Qian, B Lu*, Y Bao, Y Zhao, Y Song, J Zhang, Prelithiation design for suppressing delamination in lithium-ion battery electrodes. Appl Math Mech, 2021, 42: 1703-1716.

[18] E Gao, B Lu*, Y Zhao, J Feng, Y Song, J Zhang, Stress-regulated protocols for fast charging and long cycle life in lithium-ion batteries: Modeling and experiments. J Electrochem Soc, 2021, 168: 060549.

[19] S Wen, B Lu*, Y Zhao, Y Song, J Zhang, Feigned death induced by partial delithiation in silicon composite electrodes. J Power Sources, 2021, 495: 229763.


【科研项目】

[1] 国家自然科学基金面上项目,正向利用活性层裂纹的厚电极离子通道构建原理与力学调控,主持,52.39万

[2] 国家自然科学基金面上项目,锂离子电池高容量复合电极的损伤协同演化与电化学性能调控,主持,62万

[3] 国家自然科学基金青年项目,锂离子电池性能退化与分层新表面生成的关联机理,主持,25万

[4] 某知名终端企业横向项目,主持,56.032万


【所获荣誉】

[1] 上海市力学学会优秀力学学者,2020

[2] 上海大学蔡冠深优秀青年教师,2020

[3] 首批国家级一流本科课程骨干(弹性力学),2020,排名第四


【讲授课程】

[1] 弹性力学 (本科生,首批国家级一流本科课程)

[2] 高等固体力学 (硕士生)


【学术兼职】

[1] 中国力学学会电子电磁器件力学工作组组员,2020-至今

[2] 上海市力学学会教育工作委员会副主任、固体力学专业委员会委员、青年工作委员会委员,2024-至今

[3] Acta Mech Solida Sin青年编委,2025-至今

[4] Theor Appl Mech Lett青年编委,2025-至今


【科研团队】

本团队自2010 年起开始从事锂离子电池力学问题的研究,是国内力学界最先开始研究锂离子电池的团队之一,在国际上率先针对电极尺度的应力、损伤演化和力-电化学耦合机理开展了工作,有较好的工作积累、完备的计算/实验设备,已取得一系列创新性成果。欢迎对储能基础理论和技术研发有兴趣的同学加入!
教育部长江学者特聘教授 杰青
优青

上一条:胡宏玖

下一条:刘宇陆

友情链接

版权所有 © 上海大学   沪ICP备09014157   沪公网安备31009102000049号  
地址:上海市宝山区上大路99号   邮编:200444   电话查询  
技术支持:上海大学信息化工作办公室   联系我们