王路达为北京大学集成电路学院及前沿交叉学科研究院纳米科技中心特聘研究员,博士生导师,入选国家高层次青年人才项目。有多年从事纳流体、微纳传感器和二维分离膜方面的研究经验。首次实现了“气体分子二极管”;开发了高性能气体传感器;发展了纳流体忆阻器;实现了大面积石墨烯分离膜,并成功应用于膜式总有机碳分析仪中。在精准检测、高效分离等方面有广泛的应用前景。课题组遵循基础研究和应用探索并重的发展思路,课题组组长已主持/参与国家级和省部级等科研项目12项,包括科技部重点研发项目(课题负责人、骨干)、国家自然基金委面上项目和青年项目(主持)、北京市科委产业培养项目(主持)、J-W-K-J-W领域基金(主持)、装备预研重点实验室重点项目(主持)等,总经费逾两千万元。
王路达发表高水平论文50余篇,包括Nature Materials,Nature Nanotechnology (三篇,其中两篇为一作),Nano Letters (六篇,其中五篇为一作/通讯),Advanced Materials, Science Advance,Nature Communications, Sensors and Actuators B/A,和J. of Membrane Science等,申请/授权15项国家发明专利。被多所知名大学邀请作学术报告多次,包括麻省理工学院(两次)、宾州州立大学、密歇根州立大学、瑞士EPFL,香港科技大学、北京大学、清华大学等。是Nature Sustainability, Nature Communications, Science Advances, PNAS, Advanced Materials, Nano Letters, ACS Nano等多个杂志的特邀审稿人。
部分成果相关新闻:
气体分子二极管:https://news.pku.edu.cn/jxky/91881d1fd7fa440ead532ac8e09f76e5.htm
气体传感器:https://ic.pku.edu.cn/xwdt/493cfb08dfd8418289f86c82c37fa746.htm
离子电子学:https://news.pku.edu.cn/jxky/015103f335ce481a9b820c2f3abb76b2.htm
离子输运:https://ic.pku.edu.cn/xwdt/da9a766aba814af1931ab5bf7acc9dc4.htm
石墨烯分离膜:https://ic.pku.edu.cn/xwdt/9f16ef9ab56b465e81d29b9825155eed.htm
纳米孔定点修饰:https://news.pku.edu.cn/jxky/2beaca11efff46f58119423e0c98b8f8.htm
代表性论文:
1.H. W. Duan#, J. Yang#, N. J. Liang#, X. B. Chen#, S. P. Zhang, A. Saxena, Z. Y. Zhuang, R. Y. Song, J. H. Tong, K. H. Liu, N. R. Aluru, B. Song*, L. D. Wang*, “An Angstrom-Scale Janus Aperture as a Gas Flow Rectifier” Nature Materials, https://doi.org/10.1038/s41563-026-02513-w, 2026
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.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
4.J. H. Tong, Y. Lv, Z. Y. Zhuang, J. Yang, B. R. Feng, J. Y. Zhao, S. R. Huang, D. X. Zhang, Y. F. Zhu, G. Cuniberti, L. D. Wang*, “Wafer-scale Pd-decorated Ta2O5/SnO2 heterojunction sensor for ultrafast and sensitive hydrogen detection” Sensors and Actuators B: Chemical, 451, 139432, 2026
5.D. W. Lu, S. S. Wang, Y. Zhang, Y. Liu, J. Z. Zheng, S. Y. Hu, J. He. Tong, D. X. Zhang, D. D. Hou*, L. D. Wang*, “Overcoming cross-scale manufacturing barriers toward scalable nanoporous atomically thin membranes for gas-liquid separation” Journal of Membrane Science, 744, 125170, 2026
6.R. Y. Song#, P. Wang#, H. O. Zeng, S. P. Zhang, N. R. Wu, Y. C. Liu, P. Zhang, J. H. Tong, B. H. Li, H. F. Ye, K. H. Liu, W. Wang, L. D. Wang*, “Nanofluidic Memristive Transition and Synaptic Emulation in Atomically Thin Pores” Nano Letters, 25 (14), 5646-5655, 2025
7.L. P. Guo, Y. C. Liu, H. O. Zeng, S. P. Zhang, R. Y. Song, J. Yang, X. Han, Y. Wang, L. D. Wang*, “Covalently Functionalized Nanopores for Highly Selective Separation of Monovalent Ions” Advanced Materials, 36, 2307242, 2024
8.Y. C. Liu, S. P. Zhang, R. Y. Song, H. O. Zeng, L. D. Wang*, “Preanchoring Enabled Directional Modification of Atomically Thin Membrane for High-Performance Osmotic Energy Generation” Nano Letters, 24 (1), 26-34, 2024
9.D. X. Zhang, Z. Q. Jia*, S. P. Zhang, D. D. Hou, J. J. Wang, Y. Liu, X. Han, B. Van der Bruggen, L. D. Wang*, “Bioinspired Large-Area Atomically-Thin Graphene Membranes” Advanced Functional Materials, 34, 2307419, 2024
10.S. H. Pang, N. R. Wu, D. X. Zhang, Y. R. Gao, J. Z. Zheng, Y. Liu, S. Y. Hu, S. S. Wang, Y. Zhang, J. Q. Wang, D. D. Hou*, L. D. Wang*, “Ultrafast Fabrication of Nanoporous, Atomically Thin Membranes Based on the Wafer-Scale Graphene” ACS Applied Materials & Interfaces, 17 (19), 28495-28502, 2025
11.H. O. Zeng, R. Y. Song, J. H. Tong, S. P. Zhang, F. Han, X. G. Han, L. D. Wang*, “Two-dimensional van der Waals Heterostructure for Ultra-Sensitive Nanoelectromechanical Piezoresistive Pressure Sensing” Sensors and Actuators: A. Physical, 372, 115326, 2024
12.X. Han, L. Ma, S. P. Zhang, H. O. Zeng, R. Y. Song, N. R. Wu, Y. Liu, H. W. Duan, H. L. Peng, S. P. Zhang, L. D. Wang*, “COF-Anchored Design of Nanoporous Graphene Membranes for Ultrafast and Selective Organic Separation” Journal of Membrane Science, 701, 122689-122698, 2024
13.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
14.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
15.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)
16.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)
17.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
18.Y. C. Liu, Y. C. Ma, J. Yang, S. P. Zhang, N. R. Wu, P. Wang, L. D. Wang* “Overcoming Chemical Stability Challenges of Nanoporous Graphene Separation Membranes in Harsh Environments” Chemical Engineering Journal, 508, 160721, 2025
19.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
20.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
21.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
22.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
23.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
24.S. P. Koenig, L. D. Wang, J. Pellegrino, J. S. Bunch*. “Selective Molecular Sieving through Porous Graphene”. Nature Nanotechnology, 7 (11), 728-732, 2012
25.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
26.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
27.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
28.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
