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吕瑞涛
长聘副教授

博士生导师,院长助理,材料科学与工程教学实验室主任
电话:010-62781284
电子邮箱:lvruitao@tsinghua.edu.cn

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  • 教育背景
  • 工作履历
  • 研究领域
  • 研究概况
  • 奖励与荣誉
  • 学术成果

2004/09-2009/01  乐鱼全站app 材料科学与工程系 博士

2001/09-2004/03  北京理工大学 材料科学研究中心 硕士

1997/09-2001/07  山东轻工业学院 化学工程系 本科

2019/12-至今         乐鱼全站app 乐鱼全站app 长聘副教授,博士生导师

2016/01-2019/12  乐鱼全站app 乐鱼全站app 助理教授,博士生导师

2013/02-2015/12  乐鱼全站app 乐鱼全站app 助理研究员,硕士生导师

2011/01-2013/01  美国宾夕法尼亚州立大学 物理系 博士后

2009/11-2010/08  日本九州大学 先导物质化学研究所 访问研究

2009/01-2011/01  乐鱼全站app 材料科学与工程系 博士后


低维碳基功能材料;二维无机层状材料;清洁能源材料与器件

        主要从事碳基低维材料缺陷设计及性能调控研究,侧重于晶格缺陷(掺杂原子、空位、界面等)的可控构筑、原子级构型解析以及在高效能源存储/转换器件、超灵敏分子探测、高性能催化等领域的应用性能研究。撰写英文学术专著3章,中文专著1章;在PNAS、Adv. Mater.、Adv. Funct. Mater.等期刊发表论文150余篇;申请(授权)发明专利28项。主持完成/在研国家自然科学基金项目4项,中国航空工业集团公司委托项目2项;作为课题负责人承担国家重点研发计划项目1项,作为骨干完成国家重大科学研究计划项目2项。受邀在世界碳材料年度大会等国内外重要学术会议上作大会报告/特邀报告40余次,担任第四/五/六/八届国际石墨烯高峰论坛(深圳)“二维材料”分会主席。担任Carbon Letters(Springer Nature)期刊Associate Editor,SmartMat(Wiley)期刊青年编委;Materials, ES Energy and Environment等期刊编委。


2021  乐鱼全站app教学成果一等奖

2021  乐鱼全站app优秀党建与思想政治工作者

2019  教育部高等学校科学研究优秀成果(自然科学)一等奖

2018  乐鱼全站app第八届青年教师教学大赛(工科组)二等奖

2017  英国炭素学会Brian Kelly Award

2017  国家自然科学基金委优秀青年科学基金

2017  乐鱼全站app“挑战杯”优秀指导教师

2016  北京市科技新星计划

2014  乐鱼全站app学术新人奖

2010  Elsevier Carbon Journal Prize

2009  中国材料研讨会(C-MRS)青年优秀论文奖

学术专著章节:

[1] Leping Yang, Yuchi Wan, Ruitao Lv*. Tailoring defects in 2D materials for electrocatalysis (Chapter 10 of the Book: "Defects in Two-Dimensional Materials"), 2022 Elsevier.

[2] 吕瑞涛*. 太阳能应用 (康飞宇等编著,"储能用碳基纳米材料"第8章), 2020 科学出版社.

[3] Simin Feng, Ruitao Lv, Mauricio Terrones, Maria Cristina dos Santos*. Interactions of Molecular Species with Graphene and Graphene Sensing (Chapter 17 of the Book: "Handbook of Graphene" Volume 6, (507–532)), 2019 Scrivener Publishing LLC.

[4] Florentino Lopez-Urias, Ruitao Lv, Humberto Terrones, Mauricio Terrones*. Doped graphene: theory, synthesis, characterization and applications (Chapter 9 of the Book: "Graphene Chemistry: Theoretical Perspectives"), 2013, Wiley.


部分期刊论文:

[1] Yang L, Zhang X, Yu L, Hou J, Zhou Z, Lv R*, Atomic Fe-N4/C in Flexible Carbon Fiber Membrane as Binder-Free Air Cathode for Zn-Air Batteries with Stable Cycling over 1000 h. Advanced Materials, 34: 2105410 (2022).

[2] Wan Y, Wang Z, Li J*, Lv R*, Mo2C-MoO2 Heterostructure Quantum Dots for Enhanced Electrocatalytic Nitrogen Reduction to Ammonia. ACS Nano, 16: 643-654 (2022).

[3] Zhou L, Lv R*, Rational catalyst design and interface engineering for electrochemical CO2 reduction to high-valued alcohols. Journal of Energy Chemistry, 70: 310-331 (2022).

[4] Wan Y, Zhou H, Zheng M, Huang Z-H, Kang F, Li J*, Lv R*, Oxidation State Modulation of Bismuth for Efficient Electrocatalytic Nitrogen Reduction to Ammonia. Advanced Functional Materials, 31: 2100300 (2021).

[5] Ren H, Yu L, Yang L, Huang Z-H*, Kang F*, Lv R*, Efficient electrocatalytic overall water splitting and structural evolution of cobalt iron selenide by one-step electrodeposition. Journal of Energy Chemistry, 60: 194-201 (2021).

[6] Lv Q, Wu X, Tan J, Liu B, Gan L, Li J*, Huang Z-H, Kang F, Lv R*, Ultrasensitive molecular sensing of few-layer niobium diselenide. Journal of Materials Chemistry A, 9: 2725 (2021).

[7] Wang C, Zhao N, Li B, Yu Q, Shen W, Kang F, Lv R*, Huang Z-H*, Pseudocapacitive porous hard carbon anode with controllable pyridinic nitrogen and thiophene sulfur co-doping for high-power dual-carbon sodium ion hybrid capacitors. Journal of Materials Chemistry A, 9: 20483-20492 (2021).

[8] Fu M, Lv R*, Lei Y*, Terrones M*, Ultralight Flexible Electrodes of Nitrogen-Doped Carbon Macrotube Sponges for High-Performance Supercapacitors. Small, 17: 2004827 (2021).

[9] Zhang H, Hu M, Lv Q, Huang Z-H, Kang F, Lv R*, Advanced Materials for Sodium-Ion Capacitors with Superior Energy-Power Properties: Progress and Perspectives. Small, 16: 1902843 (2020).

[10] Yang L, Yang X, Yu L, Lv R*, Defect Engineering of van der Waals Solids for Electrocatalytic Hydrogen Evolution. Chemistry-an Asian Journal, 15: 3682-3695 (2020).

[11] Yang L, Hu M, Lv Q, Zhang H, Yang W*, Lv R*, Salt and sugar derived high power carbon microspheres anode with excellent low-potential capacity. Carbon, 163: 288-296 (2020).

[12] Hu M, Liu Z, Zhang H, Huang Z-H, Kang F, Lv R*, Defect engineering of vanadium pentoxide for efficient lithium-ion storage. Electrochimica Acta, 333: 135513 (2020).

[13] Hu M, Ju Z, Bai Z, Yu K, Fang Z, Lv R*, Yu G*, Revealing the Critical Factor in Metal Sulfide Anode Performance in Sodium-Ion Batteries: An Investigation of Polysulfide Shuttling Issues. Small Methods, 4: 1900673 (2020).

[14] Zhang H, Hu M, Lv Q, Yang L, Lv R*, Monodisperse nitrogen-doped carbon spheres with superior rate capacities for lithium/sodium ion storage. Electrochimica Acta, 297: 365-371 (2019).

[15] Wan Y, Xu J, Lv R*, Heterogeneous electrocatalysts design for nitrogen reduction reaction under ambient conditions. Materials Today, 27: 69-90 (2019).

[16] Lu J, Zhao S, Fan S, Lv Q, Li J*, Lv R*, Hierarchical SnS/SnS2 heterostructures grown on carbon cloth as binder-free anode for superior sodium-ion storage. Carbon, 148: 525-531 (2019).

[17] Hu M, Zhang H, Yang L, Lv R*, Ultrahigh rate sodium-ion storage of SnS/SnS2 heterostructures anchored on S-doped reduced graphene oxide by ion-assisted growth. Carbon, 143: 21-29 (2019).

[18] Zhou C, Lu J, Hu M, Huang Z-H, Kang F, Lv R*, High Areal Capacity Li-Ion Storage of Binder-Free Metal Vanadate/Carbon Hybrid Anode by Ion-Exchange Reaction. Small, 14: 1801832 (2018).

[19] Zhang Z, Wang Y, Leng X, Crespi VH*, Kang F*, Lv R*, Controllable Edge Exposure of MoS2 for Efficient Hydrogen Evolution with High Current Density. ACS Applied Energy Materials, 1: 1268-1275 (2018).

[20] Zhang H, Lv R*, Defect engineering of two-dimensional materials for efficient electrocatalysis. Journal of Materiomics, 4: 95-107 (2018).

[21] Yang L, Wang W, Hu M, Shao J, Lv R*, Ultrahigh rate binder-free Na3V2(PO4)3/carbon cathode for sodium-ion battery. Journal of Energy Chemistry, 27: 1439-1445 (2018).

[22] Hu M, Zhou H, Gan X, Yang L, Huang Z-H, Wang D-W, Kang F, Lv R*, Ultrahigh rate sodium ion storage with nitrogen-doped expanded graphite oxide in ether-based electrolyte. Journal of Materials Chemistry A, 6: 1582-1589 (2018).

[23] Zhou C, Fan S, Hu M, Lu J, Li J*, Huang Z-H, Kang F, Lv R*, High areal specific capacity of Ni3V2O8/carbon cloth hierarchical structures as flexible anodes for sodium-ion batteries. Journal of Materials Chemistry A, 5: 15517-15524 (2017).

[24] Yu F, Liu Q, Gan X, Hu M, Zhang T, Li C*, Kang F, Terrones M*, Lv R*, Ultrasensitive Pressure Detection of Few-Layer MoS2. Advanced Materials, 29: 1603266 (2017).

[25] Wang X, Gan X, Hu T, Fujisawa K, Lei Y, Lin Z, Xu B, Huang Z-H, Kang F, Terrones M*, Lv R*, Noble-Metal-Free Hybrid Membranes for Highly Efficient Hydrogen Evolution. Advanced Materials, 29: 1603617 (2017).

[26] Ren H, Huang Z-H*, Yang Z, Tang S, Kang F, Lv R*, Facile synthesis of free-standing nickel chalcogenide electrodes for overall water splitting. Journal of Energy Chemistry, 26: 1217-1222 (2017).

[27] Hu M, Yang L, Zhou K, Zhou C, Huang Z-H, Kang F, Lv R*, Enhanced sodium-ion storage of nitrogen-rich hard carbon by NaCl intercalation. Carbon, 122: 680-686 (2017).

[28] Lv R, Robinson JA, Schaak RE, Sun D, Sun Y, Mallouk TE, Terrones M*, Transition Metal Dichalcogenides and Beyond: Synthesis, Properties, and Applications of Single- and Few-Layer Nanosheets. Accounts of Chemical Research, 48: 56-64 (2015). (被引:817次)

[29] Lv R, Chen G, Li Q, McCreary A, Botello-Mendez A, Morozov SV, Liang L, Declerck X, Perea-Lopez N, Culleni DA, Feng S, Elias AL, Cruz-Silva R, Fujisawa K, Endo M, Kang F, Charlier J-C, Meunier V, Pan M, Harutyunyan AR, Novoselov KS, Terrones M*, Ultrasensitive gas detection of large-area boron-doped graphene. PNAS, 112: 14527-14532 (2015).

[30] Lv R*, dos Santos MC, Antonelli C, Feng S, Fujisawa K, Berkdemir A, Cruz-Silva R, Elias AL, Perea-Lopez N, Lopez-Urias F, Terrones H, Terrones M*, Large-Area Si-Doped Graphene: Controllable Synthesis and Enhanced Molecular Sensing. Advanced Materials, 26: 7593-7599 (2014).

[31] Lv R, Cruz-Silva E, Terrones M*, Building Complex Hybrid Carbon Architectures by Covalent Interconnections: Graphene-Nanotube Hybrids and More. ACS Nano, 8: 4061-4069 (2014).

[32] Kovtyukhova NI*, Wang Y, Lv R, Terrones M, Crespi VH*, Mallouk TE*, Reversible Intercalation of Hexagonal Boron Nitride with Bronsted Acids. Journal of the American Chemical Society, 135: 8372-8381 (2013).

[33] Lv R, Li Q, Botello-Mendez AR, Hayashi T, Wang B, Berkdemir A, Hao Q, Elias AL, Cruz-Silva R, Gutierrez HR, Kim YA, Muramatsu H, Zhu J, Endo M, Terrones H, Charlier J-C*, Pan M*, Terrones M*, Nitrogen-doped graphene: beyond single substitution and enhanced molecular sensing. Scientific Reports, 2: 586 (2012). (被引:517次)

[34] Lv R, Cui T, Jun M-S, Zhang Q, Cao A*, Su DS, Zhang Z, Yoon S-H, Miyawaki J, Mochida I, Kang F*, Open-Ended, N-Doped Carbon Nanotube-Graphene Hybrid Nanostructures as High-Performance Catalyst Support. Advanced Functional Materials, 21: 999-1006 (2011). (被引:328次)


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