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成果及论文

科研成果:

以第一作者/共同一作/通讯作者身份在Science Advances (2 )、 Nature Communications (1 )Advanced Materials (7)Angewandte Chemie International Edition (9 )Joule(1)Advanced Energy Materials (4 )Advanced Functional Materials (4 )Energy & Environmental Science (3 )Accounts of Chemical Research (1 )Chem (1)Applied Catalysis B: Environmental (2)Advanced Science (1)等国际高水平材料化学类期刊发表论文40余篇。以共同作者身份共发表SCI论文总数140余篇,他引次数超过27000次,H-index78。其中43ESI高被引论文,8篇封面/封底论文,1篇扉页论文和2VIP论文。并有中国发明专利15项,8项已授权。

[1]2014年国家优秀自费留学生奖学金

[2]2019Nano Research第五届“Top Paper Award”. 

[3]201620172018年度Journal of Materials Chemistry A杰出审稿人

[4]2017年度 Chemical Engineering Journal杰出审稿人

[5]2018年度科睿唯安(Clarivate Analytics)交叉学科领域全球“高被引科学家”

[6]2019年度科睿唯安(Clarivate Analytics)材料领域与化学领域全球“高被引科学家”

[7]2020年度科睿唯安(Clarivate Analytics)材料领域与化学领域全球“高被引科学家”

[8]2021年度科睿唯安(Clarivate Analytics)材料领域与化学领域全球“高被引科学家”

[9]2021年度爱思唯尔(Elsevier)化学工程领域“中国高被引学者”

[10] 2022年度科睿唯安(Clarivate Analytics)材料领域与化学领域全球“高被引科学家”

[11] 2022年度爱思唯尔(Elsevier)化学工程领域“中国高被引学者” 

[12] 2023年度科睿唯安(Clarivate Analytics)材料领域与化学领域全球“高被引科学家”

[13] 2023年度爱思唯尔(Elsevier)化学工程领域“中国高被引学者”

[14] 2023ICMAT rising star speaker award

[15] 2023ISHM Excellent Young Scientist Award

[16] 2023年《物理化学学报》优秀青年编委突出贡献奖

[17] 2024年度爱思唯尔(Elsevier)化学工程领域“中国高被引学者”

[18] 2024年入选度爱思唯尔(Elsevier)全球前2%顶尖科学家榜单

[19] 2024年入选度爱思唯尔(Elsevier)终身科学影响力排行榜

[20] 2024年《物理化学学报》优秀编委突出贡献奖

[21] 2024Energy & Environmental Materials第一届优秀青年编委

[22] 2024年度科睿唯安(Clarivate Analytics)材料领域与化学领域全球“高被引科学家”


教学成果:

[1]2023年北京化工大学研究生教学成果奖一项,排名1/3;

[2]2023年北京化工大学本科生教学成果奖一项,排名2/3;

[3]2023年北京化工大学优秀班主任;

[4]2023年Chem-E-car二等奖指导教师:于乐;

[5]2023年全国石油和化工教育优秀教学团队-能源化学工程教学团队,中国化工教育协会,排名19/24;

[6]2024年北京化工大学研究生优秀教师团队,排名3/8;

[7]2024年 第七届石油和化工教育优秀教学成果(本科院校)特等奖, "双一流”学科引领的大化工学科专业一体化建设与实践",排名2/9

[8]2024年 中国石油教育学会石油高等教育(研究生)教学成果奖一等奖, “学科建设引领产学研协同大化工交叉创新人才培养模式的探索与实践”,排名2/6;

[9] 2024年全国大学生可再生能源竞赛全国三等奖团队“关于一种新型太阳能水系锌空气电池的制备研究”,陈立志;苏镇江;鲍皖佳;杜天一;何豪诺;李佳卉;李昊宇指导教师:于乐;

[10] 2024年“挑战杯”首都大学生创业计划竞赛科技发明类特等奖团队锌阳储能-新型锰基架构AZIBs太阳能空气电池”,陈立志,指导教师:于乐。

[11] 2024年“挑战杯”首都大学生创业计划竞赛科技发明类一等奖团队“面向高安全锂离子电池的PPTA基改性隔膜”,辛阳,指导教师:于乐


著作:

[1]  X. Zhang, L. Yu,* Z. Zhang,* et al., CO2 Conversion and Utilization: Photocatalytical and Electrochemical Methods and Applications, Wiley, ISBN: 978-3-527-35202-9 September 2023 368 Pages (2023) Link

[2] M. Yang, L. Yu,* C. Guan,* et al., Metal Organic Frameworks and Their Derivatives for Energy Conversion and Storage (Materials Today),ElseviereBook ISBN: 9780443188466,January 19, 2024 (2024) Link


科研项目

[1] 国家自然科学基金区域联合重点项目“高比能水系深海特种电池的构建策略”,2023.01-2026.12 主持;

[2] 国家自然科学基金面上项目“基于微区限域与界面改性协同的长寿命锌金属负极的构筑策略”,2023.01-2026.12 主持

[3] 国家自然科学基金青年项目“基于钛酸钾三维自支撑微纳结构的钠离子电容器负极的可控构筑及性能优化”,2020.01-2022.12主持

[4] XJZ*****, 2023.07-2024.07 主持;

[5] 国家科技部人才引智项目个人类,三维复合锂金属负极的设计与界面调控,2021.1-2022.12 主持;

[6] 中石油-北化创新联合体重点项目“钠离子电池硬碳负极材料的研发与公斤级制备”,2023.11-2025.10 主持;

[7] 中材锂膜公司项目,"半固态锂电池隔膜开发"2023.10-2025.03 主持

[8] 青海大学部省合建盐湖化工大型系列研究设施开放课题,"高性能钠离子电池关键材料研究及优化"2024.10-2026.09 主持

[9] 北京市-小米联合基金项目“高电压固态锂电池关键材料研究及界面优化“,参与;

[10]  山东省重点研发计划(重大科技创新工程)“超耐热动力锂电池隔膜的关键技术研究及产业化”,参与


教改项目:

[1] 2021年北京化工大学研究生教育教学改革项目,“碳中和背景下储能材料课程的教学研究与改革”主持。

[2] 2022年北京化工大学研究生教育教学改革项目,“氢能科学与工程”参与。

[3] 2024年北京化工大学研究生教育教学改革项目,““爱国-科创-思辨”课程思政设计在储能课程思政中的研究与实践”主持。

[4] 2024年北京化工大学十五五规划课题项目,基于“双一流”学科建设探索创新型高等化工人才培养体系的思路和举措主持。

[5] 2024年北京化工大学化工学院化工专业课-基础课交叉融合改革项目,“物理化学与化工专业课交叉融合教学改革”主持。

[6] 2024年北京化工大学化工学院化学工程学院课程建设项目,“储能材料线下一流课程教学探索”主持。

[7] 2024年北京化工大学化工学院教创项目,基于微区限域的锌金属负极构筑策略,主持。


教改论文:

[1] 2023年,于乐,“爱国-科创-思辨”三位一体设计在物化教学中的探索,北京地区高校课程思政的建设探索, 高等教育出版社ISBN:978-7-89530-642-4。

[2] 2024年,张晓晴,邵百一,李东旭,于乐*,高等教育数字化赋能卓越工程师培养化工高等教育,第41卷第5期13-22页

[3] 2025年,张晓晴,于乐*,基于引文影响力视角的化工学科国际影响力探究,江苏科技信息。


代表论文:

[74] M. Wang, K. Liu, Y. Xu, X. Zhang, Q. Peng, Y. Guo, X. Zhang, X. Sun, W. Pang*, K. Wang*, L. Yu*, Y. Ma*, Sb4O5Cl2 Embedded in Carbon Polyhedra For Fast Charge Kinetics Towards High-Capacity Lithium-ion Capacitors, J. Mater. Chem. A, DOI: 10.1039/D4TA07237E (2025). Link

[73] X. Wu, X. Yang*, X. C. Chen*, L. Yu*Imidazolium-based ionic liquids as proton reservoir for stable polyaniline cathode in zinc-iodine batteries, Chem. Eng. J., 500, 157437 (2024). Link

[72] K. W. Liu, Y. Ma, Y. Guo, H. Wang, Y. Xu, X. Zhang, X. Zhang, X. Sun, K. Wang*, L. Yu*, Y. Ma*, Functional Binder with Enhanced Chemical Adsorption for Black Phosphorus Anode in Lithium-Ion Capacitors, Adv. Funct. Mater. DOI: 10.1002/adfm.202410451 (2024). Link

[71] Y. Q. Zheng, P. X. Sun, X. Y. Zhang, N. W. Li, L. Wu, D. Luan, X. Zhang, X. W. Lou,* L. Yu*Decoration of Ag Species into rGO Foam as A Superelastic and Robust Host toward Stable Zn Metal Anodes Under Dwell-Fatigue Condition, Adv. Mater. 36, 2405906 (2024). Link

[70] X. Chai#, H. Xie#, T. T. Zhang#, Y. Xin*, F. Zhang, B. He, H. Xie, L. Yu*, H. Tian*Ternary Mg alloy-based artificial interphase enables high-performance rechargeable magnesium batteriesEnergy Stor. Mater. 70, 103460(2024). Link

[69] D. Chen, C. Chen, H. Yu, S. Zheng, T. Jin, N. W. Li,* L. Yu*, Formation of N-Doped Carbon Nanofibers Decorated with MoP Nanoflakes for Dendrite-Free Lithium Metal Anode, Adv. Funct. Mater. 10.1002/adfm.202402951 (2024). Link

[68] P. X. Sun, Y. Zheng, X. Y. Zhang, H. Yu, Y. Guo, L. Yu*, Spatial Confinement of Sn/TiO2 Nanoparticles in Hollow Mesoporous Carbon Spheres Opal for Enhanced Diffusion Kinetics Towards Stable Zn Metal Anodes, Adv. Energy Mater. 14, 2304138 (2024). Link

[67] C. Chen, N. W. Li*L. Yu,Recent advances in the surface modification strategies towards 3D carbon-based hosts for dendrite-free Li/Na/Zn metal anodes, EnergyChem, 6, 100117 (2024)Link

[66] H. Yu, H. Yao, Y. Zheng, D. Liu, J. S. Chen, Y. Guo,* N. W. Li,* L. Yu*, Formation of Hierarchical Zn/N-doped Carbon Hollow Nanofibers towards Dendrite-Free Zn Metal Anodes, Adv. Funct. Mater. 34, 2311038 (2024). Link

[65] X. Wu, Y. Dai, N. W. Li, X. C. Chen*, L. Yu,Recent progress of ionic liquids-based electrolytes towards nonaqueous and aqueous metal batteries, eScience, 4 (2024) 100173 特邀综述 Link.

[64] H. Yao, H. Yu, Y. Zheng, N. W. Li, S. Li, D. Luan, X. W. Lou,* L. Yu,Pre-intercalation of Ammonium Ions in Layered δ-MnO2 Nanosheets for High-Performance Aqueous Zinc-Ion Batteries, Angew. Chem. Int. Ed., 62, e202315257 (2023)Link

[63] T. Jin, J. S. Chen, X. C. Chen*, N. W. Li*, L. Yu,Artificial interphase layers for Li metal anode, what's next? Next Energy, 1, 100040 (2023)  特邀综述 Link

[62] J. Zhou, X. Zeng, L. Dong, L. Chen, X. Wei, Y. Liu, L. Shi, L. Yu,* J. Fu,* Mixed-linker MOFs-derived cross-linked copolymer electrolyte enables high lithium mobility for dendrite-free all-solid-state batteries, Chem. Eng. J.466,143243 (2023) Link

[61] C. H. Zhang, T. Jin, J. Liu, J. Ma, N. W. Li,* L. Yu,* In-Situ Formed Gradient Composite Solid Electrolyte Interphase Layer for Stable Lithium Metal Anodes, Small  DOI: 10.1002/smll.202301523 (2023) Link

[60] Y. Xu, G. Fan, P. X. Sun, Y. Guo,* Y. Wang , X. Gu,* L. Wu,* L. Yu,Carbon Nitride Pillared Vanadate Via Chemical Pre-Intercalation Towards High-Performance Aqueous Zinc-Ion Batteries, Angew. Chem. Int. Ed., 62, e202303529 (2023)Link

[59] X. Meng, Y. Liu, L. Yu, J. S. Qiu, Z. Y. Wang,* Air-Stable Li2S Cathode for Quasi-Solid-State Anode-Free Batteries with High Volumetric Energy, Adv. Funct. Mater. 33, 2209837(2023) Link

[58] Y. Lu, Z. L. Wu, G. Cheng,* T. A. Venkatesh,* G. Liu, Y. Z. Bai, L. Yu, N. W. Li, Understanding the effects of the electrochemical and thermal properties of the separator on the battery temperature, Chem. Eng. J. 461, 142067 (2023)Link

[57] X. Zhang, W. Huang,* L. Yu, M. García-Melchor, D. S. Wang, L. J. Zhi,* H. B. Zhang,* Enabling Heterogeneous Catalysis to Achieve Carbon Neutrality: Directional Catalytic Conversion of CO2 into Carboxylic Acids, Carbon Energy, DOI: 10.1002/cey2.362 (2023). Link

[56] H. X. Yang,  Z. K. Liu, Y. Wang, N. W. Li,* L. Yu*, Multiscale Structural Gel Polymer Electrolytes with Fast Li+ Transport for Long-Life Lithium Metal Batteries, Adv. Funct. Mater. 33, 1, 2209837(2023). Link

[55] X. Y. Zhang, L. Yu,* et al, Research Progress on Key Materials and Technologies for Secondary Batteries, Acta Phys. -Chim. Sin. (物理化学学报) 38, 2208008 (2022). 特邀综述( 纪念傅鹰先生诞辰120周年Link

[54] Y. F. WangZ. L. QiaoK. X. LiuL. YuY. Y. LvL. Y. ShiY. ZhaoD. P. CaoZ. Y. Wang,* S. T. Wang,* S. Yuan.*, High-Rate Organic Cathode Constructed by Iron-Hexaazatrinaphthalene Tricarboxylic Acid Coordination Polymer for Li-Ion Batteries, Adv. Sci. 9, 36, 2205069 (2022). Link

[53] Q. Niu, M. Yang, D. Y. Luan, N. W. Li, L. Yu,* X. W. Lou,* Self-assembled Ni-Co-Fe Hydr(oxy)oxide@Ni-Co Layered Double Hydroxide Yolk-shelled Microrods for Enhanced Oxygen Evolution, Angew. Chem. Int. Ed., 61,  e202213049 (2022). Link

[52] Z. K. Liu, J. Guan, H. X. Yang,  N. W. Li,* L. Yu*Ternary-salt solid polymer electrolyte for high-rate and long-life lithium metal batteries, Chem. Commun. 58, 10973-10976 (2022)Emerging Investigators 2022 Link

[51] W. Xie, T. Z. Tian, M. Yang, N. W. LiL. Yu*, Formation of hollow frameworks of dual-sided Fe/Fe3C@N-doped carbon nanotubes as bifunctional oxygen electrocatalyst for Zn-air batteries, Appl. Catal., B Environ. 317, 121760 (2022). Link

[50] K. Su, T. Jin, C. H. Zhang, R. Wang, S. Yuan,* N. W. Li,* L. Yu*Quasi–Metallic Lithium Encapsulated in the Subnanopores of Hard Carbon for hybrid Lithium–Ion/Lithium Metal Batteries, Chem. Eng. J., 450, 138049 (2022). Link

[49] Z. Zhang, C. Christopher, Y. M. Ding, L. YuT. Russell, T. Emrick, Y. Liu*, High Performance 1 cm2 Perovskite-Organic Tandem Solar Cells with a Solvent-resistant and Thickness-insensitive Interconnecting Layer. ACS Appl. Mater. Interfaces, 14, 29896−29904 (2022). Link

[48Y. Tao, S. W. Zuo, S. H. Xiao, P. X. Sun, N. W. Li, J. S. Chen*, H. B. Zhang*, L. Yu*, Atomically Dispersed Cu in Zeolitic Imidazolate Framework Nanoflake Array for Dendrite-free Zn Metal Anode, Small, 18, 2203231(2022). Link

[47] Q. Xu, Y. Li, C. Wu, X. Sun, Q. Li, H. B. Zhang, L. Yu, Y. Y. Pan, Y. Wang, S. Guo, M. Zhang, H. Hu,* M. B. Wu,* Kinetically accelerated and high-mass loaded lithium storage enabled by atomic iron embedded carbon nanofibers, Nano Res.  15,

6176–6183 (2022). Link

[46] Y. M. Ding, N. W. Li, S. Yuan, L. Yu*, Surface engineering strategies for MoS2 towards electrochemical hydrogen evolutionAsian J. Chem.  17, e202200178 (2022)特邀综述 Link 封面文章

[45] Y. Yang, H. Sun, C. T. Liu, L. Yu,* H. J. Chen,* Stable electrolysis of ammonia on platinum enhanced by methanol in non-aqueous electrolyte for an in-situ hydrogen production, Chem. Eng. J. 442, 136167 (2022). Link

[44] X. Li, C. Chen, Q, Niu, N. W. Li*L. Yu*, B. Wang*, Self-Assembly of Nanoparticles at Solid-Liquid Interface for Electrochemical Capacitors, Rare Met. 41, 3591–3611. (2022)特邀综述 Link

[43] Y. X. Zeng, P. X. Sun, Z. H. Pei, Q. Jin, X. T. Zhang, L. Yu,* X. W. Lou,* Nitrogen-Doped Carbon Fibers Embedded with Zincophilic Cu Nanoboxes for Stable Zn Metal Anodes, Adv. Mater. 34, 2200342 (2022). Link ESI 高被引论文 

[42] N. Gao, Y. Zhang, C. Chen, B. Li, W. Li, H. Lu, L. Yu*, S. Zheng*, B. Wang*, Low-temperature Li-S Battery Enabled by CoFe bimetallic CatalystsJ. Mater. Chem. A 10, 8378 (2022)Link

[41] T. H. Wang, C. Chen, N. W. Li, K. Su, X. Wu, X. C. Chen,* L. Yu,Cations and Anions Regulation Through Hybrid Ionic Liquid Electrolytes Towards Stable Lithium Metal Anode, Chem. Eng. J. 439, 135780 (2022). Link

[40] X. X. Liu,+ C. Chen,+ Q. He, Q. Kong*, D. J. Blackwood, N. W. Li, L. Yu,* J. S. Chen*, Self-Supported Transition Metal-Based Nanoarrays for Efficient Energy Storage, Chem. Rec. 22,  e202100294 (2022). Link

[39] C. Chen, N. W. Li, X. Y. Zhang, C. H. Zhang, J. S. Qiu,* L. Yu,* Interlayer-Expanded Titanate Hierarchical Hollow Spheres Embedded in Carbon Nanofibers for Enhanced Sodium Storage, Small 18, 2107890 (2022). Link 封底文章

[38] M. Yang, C. H. Zhang, N. W. Li, D. Y. Luan, L. Yu,* X. W. Lou,* Design and Synthesis of Hollow Nanostructures for Electrochemical Water SplittingAdv. Sci. 9, 2105135 (2022). Link ESI 高被引论文 

[37] H. Yu, Y. X. Zeng, N. W. Li, D. Y. Luan, L. Yu,* X. W. Lou,* Confining Sn nanoparticles in interconnected N-doped hollow carbon spheres as hierarchical zincophilic fibers for dendrite-free Zn metal anodes, Sci. Adv. 8, eabm5766 (2022).ESI 高被引论文  

[36] Y. Wang, P. Poldorn, Y. Wongnongwa, S. Jungsuttiwong, C. Chen, L. Yu, Z. Y. Wang,* L. Y. Shi, Y. Zhao, S. Yuan*, Cobalt(II)-Hexaazatriphenylene Hexacarbonitrile Coordination Compounds Based Cathode Materials with High Capacity and Long Cycle Stability. Adv. Funct. Mater. 32, 2111043 (2022). Link

[35] P. X. Sun, Z. J. Cao, Y. X. Zeng, W. W. Xie, N. W. Li, D. Y. Luan, S. B. Yang, L. Yu,* X. W. Lou,* Formation of Super-assembled TiOx/Zn/N-doped Carbon Inverse Opal Towards Dendrite-Free Zn AnodesAngew. Chem. Int. Ed., 61, e202115649. (2022). Link ESI 高被引论文 

[34] T. Jin, M. Liu, K. Su, Y. Lu, G. Cheng, Y. Liu*, N. W. Li*, L. Yu*,  Polymer Zwitterion Based Artificial Interphase Layers for Stable Lithium Metal Anodes, ACS Appl. Mater. Interfaces, 13, 57489.  (2021). Link   

[33] Y. Z. Wang, M. Yang, Y. M. Ding, N. W. LiL. Yu,Recent Advances in Complex Hollow Electrocatalysts for Water Splitting. Adv. Funct. Mater. 32, 2108681. (2021Link ESI 高被引论文 

[32] C. H. Zhang, T. Jin, G. Cheng, S. Yuan, Z. J. Sun, N. W. Li,* L. Yu,* S. J. Ding,Functional Polymers in Electrolyte Optimization and Interphase Design for Lithium Metal Anodes.  J. Mater. Chem. A,  9, 13388-13401. (2021). Link内封面文章

[31] Y. Z. Wang, Y. M. Ding,† C. H. Zhang, B. W. Xue, N. W. Li, L. Yu,* Formation of hierarchical Co decorated Mo2C hollow spheres for enhanced hydrogen evolution. Rare Met40, 2785-2792. (2021)封面文章

[30] C. Chen, J. Guan, N. W. Li, Y. Lu, D. Y. Luan, C. H. Zhang, G. Cheng, L. Yu,* X. W. Lou,* Lotus root-like Carbon Fibers Embedded with Ni-Co Nanoparticles for Dendrite-Free Lithium Metal Anodes. Adv. Mater. 33, 2100608 (2021)ESI 高被引论文 Link

[29] T. Z. Tian, C. H. Zhang, W. W. Xie, N. W. Li L. Yu,* Carbon-based hollow electrocatalysts for ORRJPhys Mater., 71, 2466-2480 (2021). 特邀综述 (2020 Roadmap on electrocatalysts for green catalytic processesLink

[28] J. Guan (关俊), N. W. Li (李念武),* L. Yu (于乐),Artificial Interphase Layers for Lithium Metal Anode. Acta Phys. -Chim. Sin. (物理化学学报) 37, 2009011 (2021). 特邀综述 Link

[27] B. W. Xue, C. H. Zhang, Y. Z. Wang, W. W. Xie, N. W. Li, L. Yu,* Recent progress of Ni-Fe layered double hydroxide and beyond towards electrochemical water splitting. Nanoscale Adv.2, 5555-5566 (2020) Link

[26] C. Chen, N. W. Li, B. Wang,S. Yuan and L. Yu,* Advanced pillared designs for two-dimensional materials in eletrochemical energy storage. Nanoscale Adv., 2, 5496-5503 (2020). 特邀综述, 原文链接

[25] T. Z. Tian, N. W. LiL. Yu (于乐),* Progress of carbon-based micro-/nanostructured hollow electrocatalysts for water splitting. CIESC J. (化工学报), 71, 2466-2480 (2020). 特邀综述, 原文链接

[24] J. Zhang, L. Yu, Y. Chen, X. F. Lu, S. Gao and X. W. Lou,*  Designed Formation of Double-Shelled Ni–Fe Layered-Double-Hydroxide Nanocages for Efficient Oxygen Evolution Reaction. Adv. Mater., 32, 1906432 (2020)ESI 高被引论文 原文链接

[23] Y. Guo, C. Wu, N. W. Li, S. Yuan, L. Yu,* Formation of Co–Mn mixed oxide double-shelled hollow spheres as advanced electrodes for hybrid supercapacitors. J. Mater. Chem. A, DOI: 10.1039/C9TA05790K (2019). 封底文章 原文链接

[22] X. F. Lu, L. Yu, X. W. Lou,* Highly Crystalline Ni-doped FeP/Carbon Hollow Nanorods as All-pH Efficient and Durable Hydrogen Evolving Electrocatalysts, Sci. Adv., 5, eaav6009 (2019). ESI 高被引论文 原文链接

[21] L. Yu, X. Y. Yu, X. W. Lou,* The Design and Synthesis of Hollow Micro-/Nano-Structures: Present and Future Trends, Adv. Mater., 30, 1800939 (2018). 名人堂虚拟期刊专刊综述 ESI 高被引论文原文

[20] L. Yu, J. F. Yang, B. Y. Guan, Y. Lu, X. W. Lou,* Hierarchical Hollow Nanoprisms Based on Ultrathin Ni‐Fe Layered Double Hydroxide Nanosheets with Enhanced Electrocatalytic Activity towards Oxygen Evolution, Angew Chem. Int. Ed.57, 172-176 (2018). 热点文章, 封面文章, ESI 高被引论文 原文链接

[19] Y. Lu, L. Yu,* X. W. Lou,* Nanostructured Conversion-Type Anode Materials for Advanced Lithium-Ion Batteries, Chem4, 972-996 (2018). 特邀综述, ESI 高被引论文 原文链接

[18] L. Yu,+ H. Hu,+ H. B. Wu, X. W. Lou,* Complex Hollow Nanostructures: Synthesis and Energy-Related Applications, Adv. Mater., 29, 1604563 (2017). (+ 共同一作) 特邀综述, ESI 高被引论文 原文链接

[17] L. Yu, H. B. Wu, X. W. Lou,* Self-Templated Formation of Hollow Structures for Electrochemical Energy Applications, Acc. Chem. Res., 50, 293-301 (2017). ESI 高被引论文 原文链接

[16] L. F. Chen, L. Yu,* X. W. Lou,* Designed formation of hollow particle-based nitrogen-doped carbon nanofibers for high-performance supercapacitors, Energy Environ. Sci., 10, 1777-1783 (2017). 封面文章, ESI 高被引论文 原文链接

[15] J. W. Nai, B. Y. Guan, L. Yu, X. W. Lou,* Oriented assembly of anisotropic nanoparticles into frame-like superstructures, Sci. Adv., 3, e1700732 (2017). 原文链接

[14] L. Yu, B. Y. Xia, X. Wang,* X. W. Lou,* General Formation of M-MoS3 (M = Co, Ni) Hollow Structures with Enhanced Electrocatalytic Activity for Hydrogen Evolution, Adv. Mater.28, 92-97 (2016). ESI 高被引论文 原文链接

[13] L. Yu, J. F. Yang, X. W. Lou,* Formation of CoS2 Nanobubble Hollow Prisms for Highly Reversible Lithium Storage, Angew Chem. Int. Ed.55, 13422-13426 (2016). VIP文章, 扉页文章, ESI 高被引论文 原文链接

[12] Y. Wang, L. Yu,* X. W. Lou,* Synthesis of Highly Uniform Mo-glycerate Spheres and Their Conversion to Hierarchical MoS2 Hollow Nanospheres for Lithium-Ion Batteries, Angew Chem. Int. Ed., 55, 7423-7426 (2016). 封底文章, ESI 高被引论文 原文链接

[11] Y. Wang,+ L. Yu,+ X. W. Lou,* Formation of Triple-Shelled Mo-polydopamine Hollow Spheres and Their Conversion to MoO2/carbon Composite Hollow Spheres for Lithium-ion Batteries, Angew Chem. Int. Ed.55, 14668-14672 (2016). (+ 共同一作) 原文链接

[10] X. Y. Yu,+ L. Yu,+ X. W. Lou,* Metal Sulfide Hollow Nanostructures for Electrochemical Energy Storage, Adv. Energy Mater., 6, 1501333 (2016). (+ 共同一作) 特邀综述, ESI 高被引论文 原文链接

[9] F. X. Ma,+ L. Yu,+ C. Y. Xu, X. W. Lou,* Self-supported formation of hierarchical NiCo2O4 tetragonal microtubes with enhanced electrochemical propertiesEnergy Environ. Sci.9, 862 (2016). (+ 共同一作) ESI 高被引论文 原文链接

[8] S. Q. Wang,+ L. Xia,+ L. Yu,+ L. Zhang, H. H. Wang,* X. W. Lou,* Free-standing Nitrogen-doped Carbon Nanofiber Films: Integrated Electrodes for Sodium-Ion Batteries with Ultra-long Cycle Life and Superior Rate Capability, Adv. Energy Mater.,  6, 1502217  (2016). (+ 共同一作) ESI 高被引论文 原文链接

[7] L. Yu, B. Y. Guan, W. Xiao,* X. W. Lou,* Formation of Yolk-shelled Ni-Co Mixed Oxide Nanoprisms with Enhanced Electrochemical Performance for Hybrid Supercapacitors and Lithium ion BatteriesAdv. Energy Mater., 5, 1500981 (2015). ESI 高被引论文 原文链接

[6] L. F. Shen,+ L. Yu,+ H. B. Wu, X. Y. Yu, X. G. Zhang, X. W. Lou,* Formation of Nickel Cobalt Sulfide Ball-in-Ball Hollow Spheres with Enhanced Electrochemical Pseudocapacitive Properties, Nat. Commun., 6, 6694 (2015). (+ 共同一作) ESI 高被引论文 原文链接

[5] H. B. Wu+, B. Y. Xia,+ L. Yu, X. Y. Yu, X. W. Lou,* Porous Molybdenum Carbide Nano-octahedrons Synthesized via Confined Carburization in Metal-Organic Frameworks for Efficient Hydrogen Production, Nat. Commun., 6, 6512 (2015). (+ 共同一作) ESI 高被引论文 原文链接

[4] L. Yu, L. Zhang, H. B. Wu, X. W. Lou,* Formation of NixCo3-xS4 Hollow Nanoprisms with Enhanced Pseudocapacitive Properties, Angew Chem. Int. Ed., 53, 3711-3714 (2014). VIP文章, ESI 高被引论文 原文链接

[3] J. M. Wang+, L. Zhang+, L. Yu, Z. H. Jiao, H. Q. Xie, X. W. Lou,* X. W. Sun,* A Bi-functional Device for Self-powered Electrochromic Window and Self-rechargeable Transparent Battery, Nat. Commun., 5, 4921 (2014). (+ 共同一作) 原文链接[2] L. Yu, H. B. Wu, X. W. Lou,* Mesoporous Li4Ti5O12 Hollow Spheres with Enhanced Lithium Storage Capability, Adv. Mater., 25, 2296-2300 (2013). ESI 高被引论文 原文链接

[1] L. Yu, L. Zhang, H. B. Wu, G. Q. Zhang, X. W. Lou,* Controlled Synthesis of Hierarchical CoxMn3-xO4 Array Micro-/Nanostructures as Integrated Electrodes for Lithium-ion Batteries, Energy Environ. Sci.6, 2664-2671 (2013). ESI 高被引论文 原文链接

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