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王路達

王路達


 

特聘研究員

聯系地址:beat365微納電子大廈342

 

聯系電話:010-62755973
電子郵箱:luda.wang@pku.edu.cn
個人主頁:https://ldwang.pku.edu.cn/

研究領域: 

1) 分子級别流體

2) 基于納流體的微納傳感器

3)血液透析、海水淡化等液态分離

4)氣體分離

教育經曆:

  美國麻省理工學院 博士後(2014-2018

  美國科羅拉多大學博爾德分校 博士(2009-2014

  北京航空航天大學 碩士(2006-2009

北京航空航天大學 學士(2002-2006

 

 獲得獎勵和榮譽:

2018年獲入選beat365青年博雅學者

2008年獲中國儀器儀表學會獎學金二等獎

 

個人簡介:

王路達為beat365集成電路學院及前沿交叉學院納米科技中心特聘研究員,博士導師,入選國家高層次青年人才項目。有多年從事微納米碳材料在納流體、微納傳感器和二維分離膜方面的研究經驗。王路達發展了一種在石墨烯及二維超薄膜上制造亞納米孔的新方法,系統研究了氣體通過亞納米孔的輸運機理,首次實現了分子級别氣體的流動調控,證實了高強度石墨烯膜在高壓應用中的可行性,為未來制造新一代擁有分子高傳輸量、分子間高選擇率和膜高機械強度等優異性能的分離膜提供了材料支撐。開發了引入(亞)納米孔的解耦合刻蝕方法;提出并設計了仿生質子孔和仿生鈉離子通道;實現了大面積(15 × 10 cm2)納米孔單/雙層石墨烯分離膜,并成功應用于膜式總有機碳分析儀中。在微納檢測、血液透析、海(鹹)水淡化、氣體分離、生物分子分離和燃料電池中的質子交換等方面有廣泛的應用前景。課題組遵循基礎研究和應用探索并重的發展思路,課題組組長已主持/參與國家級和省部級等科研項目9項,包括國家自然基金委青年項目(主持)、面上項目(主持)、北京市科委産業培養項目(主持)、J-W-K-J-W領域基金(主持)、裝備預研重點實驗室重點項目(主持)和科技部重點研發項目(骨幹)等,總經費逾千萬元。

王路達發表高水平論文若幹,包括Nature Nanotechnology (三篇其中兩篇為一作)Nano Letters (四篇,其中三篇為一作/通訊)Advanced Materials (三篇),Science Advance (兩篇),Nature Communications, ACS NanoACS Applied Materials & Interfaces, Cell Reports Physical ScienceJ. of Membrane Science,申請和授權多項國家發明專利。被多所知名大學邀請作學術報告多次,包括麻省理工學院(兩次)、賓州州立大學、密歇根州立大學、香港科技大學、beat365、清華大學等。是Advanced Materials, Nano Letters, ACS Nano, Nanoscale, J. of Materials Chemistry A, Nanotechnology, Langmuir, Applied Physics Letters等多個雜志的特邀審稿人。

 

近期代表性論文:

  1. L. D. Wang, L. W. Drahushuk, L. Cantley, S. P. Koenig, X. H. Liu, J. Pellegrino, M. S. Strano, J. S. Bunch*. “Molecular Valves for Controlling Gas Phase Transport Made from Discrete Angstrom-sized Pores in Graphene”. Nature Nanotechnology, 10 (9), 785-790, 2015
  2. L. D. Wang, M. S. H. Boutilier, P. Kidambi, D. Jang, N. G. Hadjiconstantinou, R. Karnik*, “Fundamental Transport Mechanisms, Fabrication and Potential Applications of Nanoporous Atomically Thin Membranes” Nature Nanotechnology, 12 (6), 509-522, 2017
  3. R. Y. Song, H. O. Zeng, S. P. Zhang, Y. Wang, X. Han, X. B. Chen, L. D. Wang*, “Low-Frequency Flicker Noise in Stochastic Ionic Transport across Atomically Thin Graphene Nanopores” Cell Reports Physical Science, 4 (1), 101210, 2023
  4. S. P. Zhang, N. R. Wu, Z. Y. Zeng, R. Y. Song, X. Han, X. B. Chen, D. D. Hou, A. Y. Yao, L. D. Wang*, “Tunable Ion Transport across Graphene through Tailoring Grain Boundaries” Cell Reports Physical Science, 3 (7), 100947, 2022
  5. Z. Y. Zeng, R. Y. Song, S. P. Zhang, X. Han, Z. Zhu, X. B. Chen, L. D. Wang*, “Biomimetic N-Doped Graphene Membrane for Proton Exchange Membranes” Nano Letters, 21 (10), 4314-4319, 2021 (Front Cover)
  6. X. B. Chen, S. P. Zhang, D. D. Hou, H. W. Duan, B. Deng, Z. Y. Zeng, B. Y. Liu, L. Z. Sun, R. Y. Song, J. L. Du, P. Gao, H. L. Peng, Z. F. Liu, L. D. Wang* “Tunable Pore Size from Sub-Nanometer to a Few Nanometers in Large-Area Graphene Nanoporous Atomically Thin Membranes” ACS Applied Materials & Interfaces, 13 (25), 29926–29935, 2021 (Cover)
  7. D. D. Hou, S. P. Zhang, X. B. Chen, R. Y. Song, D. X. Zhang, A. Y. Yao, J. Y. Sun, W. X. Wang, L. Z. Sun, B. H. Chen, Z. F. Liu, L. D. Wang*. “Decimeter-Scale Atomically Thin Graphene Membranes for Gas-Liquid Separation” ACS Applied Materials & Interfaces, 13 (8), 10328-10335, 2021
  8. L. Ma, X. Han, S. P. Zhang, Z. Y. Zeng, R. Y. Song, X. B. Chen, D. D. Hou, L. D. Wang* “Artificial Monovalent Metal Ion-Selective Fluidic Devices Based on Crown Ether@Metal–Organic Frameworks with Subnanochannels” ACS Applied Materials & Interfaces, 14 (11), 13611-13621, 2022
  9. L. Ma, X. Han, S. P. Zhang, L. D. Wang*, “Sulfonated Metal-Organic Framework Nanostructure-Based Membranes with Precise Sieving for Organic Solvent Forward Osmosis” ACS Applied Nano Materials, 5 (8), 11324-11333, 2022
  10. D. D. Hou, S. P. Zhang, D. X. Zhang, A. Y. Yao, J. Y. Sun, R. Y. Song, N. R. Wu, X. Han, B. H. Chen, A. H. Yuan, L. Z. Sun, L. D. Wang* “Atomically Thin Graphene for a Membrane-Based Total Organic Carbon Analyzer” ACS Applied Nano Materials, 5 (2), 1976–1985, 2022
  11. N. R. Wu, D. D. Hou, Q. Zhang, Y. Liu, A. Y. Yao, S. P. Zhang, R. Y. Song, D. X. Zhang, Q. Yue, R. Z. Yang, L. D. Wang*, “Precisely Engineered Microporous Layers for Proton Exchange Membrane Fuel Cells with High Power Density” ACS Sustainable Chemistry & Engineering, In Press 2023
  12. L. Wang*, C. M. Williams, M. S. H. Boutilier, P. R. Kidambi, R. Karnik* “Single-Layer Graphene Membranes Withstand Ultrahigh Applied Pressure” Nano Letters, 17 (5), 3081-3088, 2017
  13. L. D. Wang, J. J. Travis, A. S. Cavanagh, X. H. Liu, S. P. Koenig, P. Y. Huang, S. M. George, J. S. Bunch*. “Ultrathin Oxide Films by Atomic Layer Deposition on Graphene” Nano Letters, 12 (7), 3706-3710, 2012
  14. S. P. Koenig, L. D. Wang, J. Pellegrino, J. S. Bunch*. “Selective Molecular Sieving through Porous Graphene”. Nature Nanotechnology, 7 (11), 728-732, 2012
  15. L. W. Drahushuk, L. Wang, S. P. Koenig, J. S. Bunch, M. S. Strano*. “Analysis of Time-varying, Stochastic Gas Transport through Graphene Membranes” ACS Nano, 10 (1), 786-795, 2016
  16. K. Ramchander*, M. Hegde, A. P. Antony, L. D. Wang, K. Leith, A. Smith, R. Karnik*. “Engineering and Characterization of Gymnosperm Sapwood toward Enabling the Design of Water Filtration Devices” Nature Communications, 12, 1871, 2021
  17. L. Shen, Q. Shi, S. P. Zhang, J. Gao, D. C. Cheng, M. Yi, R. Y. Song, L. D. Wang, J. W. Jiang, R. Karnik, S. Zhang*. “Highly Porous Nanofiber-Supported Monolayer Graphene Membranes for Ultrafast Organic Solvent Nanofiltration” Science Advances, 7(37), eabg6263, 2021
  18. P. R. Kidambi*, M. S. B. Boutilier, L. D. Wang, D. Jang, J. Kim, R. Karnik* “Selective Nanoscale Mass Transport across Atomically Thin Single Crystalline Graphene Membranes” Advanced Materials, 29 (19), 1605896, 2017
  19. P. R. Kidambi*, R. A. Terry, L. D. Wang, M. S. B. Boutilier, D. Jang, J. Kong, R. Karnik* “Assessment and Control of the Impermeability of Graphene for Atomically Thin Membranes and Barriers” Nanoscale, 9, 8496-8507, 2017  
  20. X. S. Yuan, Z. Y. Guo, H. Z. Geng*, D. S. Rhen, L. D. Wang, X. T. Yuan, J. Li* “Enhanced Performance of Conductive Polysulfone/MWCNT/PANI Ultrafiltration Membrane in an Online Fouling Monitoring Application” J. of Membrane Science 275, 160-169, 2019
  21. P. R. Kidambi*, D. Jang, J. C. Idrobo, M. S. B. Boutilier, L. D. Wang, J. Kong, R. Karnik* “Nanoporous Atomically Thin Graphene Membranes for De-salting and Dialysis Applications” Advanced Materials 1700277, 2017
  22. W. Wang, L. N. Yao, C. Y. Cheng, T. Zhang, H. Atsumi, L. D. Wang, G. Y. Wang, O. Anilionyte, H. Steiner, J. F. Ou, K. Zhou, C. Wawrousek, K. Petrecca, A. M. Belcher, R. Karnik, X. H. Zhao*, D. I. C. Wang*, H. Ishii* “Harnessing the Hygroscopic and Biofluorescent Behaviors of Genetically Tractable Microbial Cells to Design Biohybrid Wearables” Science Advances, 3 (5), e1601984, 2017
  23. L. Lu, C. P. Zeng, L. D. Wang, X. B. Yin, S. Jin, A. H. Lu, Z. J. Ren*. “Graphene Oxide and H-2 Production from Bioelectrochemical Graphite Oxidation”. Scientific Reports, 5, 16242, 2015
  24. X. H. Liu, J. W. Suk, N. G. Boddeti, L. Cantley, L. D. Wang, J. M. Gray, H. J. Hall, V. M. Bright, C. T. Rogers, M. L. Dunn, R. S. Ruoff, J. S. Bunch*. “Large Arrays and Properties of 3-Terminal Graphene Nanoelectromechanical Switches”. Advanced Materials, 26 (10), 1571-1576, 2014
  25. X. H. Liu, N. G. Boddeti, M. R. Szpunar, L. D. Wang, M. A. Rodriguez, R. Long, J. L. Xiao, M. L. Dunn, J. S. Bunch*. “Observation of Pull-In Instability in Graphene Membranes under Interfacial Forces”. Nano Letters, 13(5), 2309-2313, 2013

 

本課題組長期招收博士後、博士研究生和本科生,請有意向的同學直接将簡曆等申請材料發到郵箱Luda.wang@pku.edu.cn

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