胡国庆
教授
个人简介
工作经历 2019 – 浙江大学 求是特聘教授 2007 – 2019 中国科学院力学研究所 非线性力学国家重点实验室 研究员 2006 – 2007 美国范德比尔特大学 机械工程系 高级研究员 2004 – 2006 加拿大多伦多大学 机械与工业工程系 研究员 2002 – 2004 加拿大科学院 海洋技术研究所 加拿大国家实验室访问学者 2001 – 2002 英国布里斯托大学 数学学院 EPSRC博士后 2000 – 2001 以色列本-古里安大学 机械工程系 博士后 招收博士研究生、硕博连读研究生 招聘博士后,力学、工程热、物理、应用数学、化工等专业 全年有效,待遇从优,欢迎联系!
研究领域
微纳米流体力学 微纳流控芯片 纳米毒理
研究领域 微纳米流体力学、生物分子/颗粒/细胞/液滴输运及操控、微纳流控器件设计、颗粒与肺部交互作用
学术兼职
Micromachines编委、Nanotechnology and Precision Engineering编委 中国微米纳米技术学会微纳流控技术分会第一届理事会理事(2023-) 中国生物物理学会微流控系统学分会第一届委员会委员(2023-)
近期论文
期刊论文 113. Xue, C.; Yin, F.; Xu, X.; Tian, K.; Su, J. & Hu, G. Particle manipulation under X-force fields. Lab on a Chip (invited review, doi: 10.1039/d4lc00794h, 2025) 112. Qiu, Y.; Cai, X.; Bian, X. & Hu, G. Design of a magnetically responsive artificial cilia array platform for microsphere transport. Lab on a Chip, 25, 330-342 (2025, back cover) 111. Zhou, Q.; Liu, S. & Hu, G. Novel method for assessment of thermal performance of louvered fin and flat tube heat exchangers. Acta Mechanica Sinica (in press, 2024) 110. Zhuo, Y.; Luo, Z.; Zhu, Z.; Wang, J.; Li, X.; Zhang, Z.; Guo, C.; Wang, B.; Nie, D.; Gan, Y.; Hu, G. & Yu, M. Direct cytosolic delivery of siRNA via cell membrane fusion using cholesterol-enriched exosomes. Nature Nanotechnology, 19, 1858-1868 (2024) 109. Ma, S.; Li, D.; Li, X. & Hu, G. Neural network-assisted model of interfacial fluids with explicit coarse-grained molecular structures. Journal of Chemical Physics, 161, 174110 (2024) 108. Wu, J.; Bai, X.; Yan, L.; Baimanov, D.; Cong, Y.; Quan, P.; Cai, R.; Guan, Y.; Bu, W.; Lin, B.; Wang, J.; Yu, S.; Li, S.; Chong, Y.; Li, Y.; Hu, G.; Zhao, Y.; Chen, C. & Wang, L. Selective regulation of macrophage lipid metabolism via nanomaterials' surface chemistry. Nature Communications, 15, 8349 (2024) 107. Al-Hilfi, S.; Jiang, X.; Heuer, J.; Akula, S.; Tammeveski, K.; Hu, G.; Yang, J.; Wang, H.; Bonn, M.; Landfester, K.; Mullen, K. & Zhou, Y. Single-atom catalysts through pressure-controlled metal diffusion. Journal of the American Chemical Society, 146, 19886-19895 (2024) 106. Zhou, Q.; Wang, H.; Wu, F.; Liu, S.; Wei, H. & Hu, G. Numerical investigation of enhanced heat transfer with micro pin fins in heat exchangers. Micormachines, 14, 1044 (2024) 105. Zhou, Q.; Wang, H.; Liu, S.; Wei, H. & Hu. G. Assessment of the heat transfer efficiency of perforated louvered fins for improved drainage. International Journal of Heat and Mass Transfer, 229, 125654 (2024) 104. Liu, Y.; Zhou, Q.; Yu, H.; Yang, Q.; Wang, M.; Huang, C.; Xiang, L.; Li, C.; Heine, T.; Hu, G.; Wang, S.; Feng, X. & Mai, Y. Increasing the accessibility of internal catalytic sites in covalent organic frameworks by introducing a bicontinuous mesostructure. Angewandte Chemie International Edition, e202400985 (2024) 103. Shang, X.; Luo, Z.; Bai, B.; He, L. & Hu, G. Front tracking simulation of droplet displacement on solid surfaces by soluble surfactant-driven flows. Physical Review Fluids, 9, 014002 (2024) 102. Qi, X,; Zhou, Q.; Li, X. & Hu, G. Generation of multiple concentration gradients using a two-dimensional pyramid array. Analytical Chemistry, 96, 856-865 (2024, Cover image) 101. Pan, Q.; Lin, X.; Wei, S.; Su, J.; Zhao, H.; Duan, X.; Hu, G. & He, Y. Spatiotemporally controlled emergence of nanoparticle microvortices under electric field. Aggregate, e450 (2023) 100. Qiu, Y.; Lu, C.; Bao, F. & Hu, G. Design of a multilayer lung chip with multigenerational alveolar ducts to investigate the inhaled particle deposition. Lab on a Chip, 23, 4302-4312 (2023) 99. Shang, X.; Luo, Z.; Bai, B. & Hu, G. A front-tracking method for simulating interfacial flows with particles and soluble surfactants. Journal of Computational Physics, 493, 112476 (2023) 98. Su, J.; Zheng, X. & Hu, G. New explicit formula for inertial lift in confined flows. Physics of Fluids, 35, 092010 (Featured article, 2023) 97. Wang, W.; Luo, Z.; Liu, X.; Dai, Y.; Hu, G.; Zhao, J. & Yue, T. Heterogeneous aggregation of carbon and silicon nanoparticles with benzo[a]pyrene modulates their impacts on the pulmonary surfactant film. Journal of Hazardous Materials, 459, 132340 (2023) 96. Luo, Z.; Xu, D.; Xu, Y.; Zhao, J.; Hu, G. & Yue, T. Dual role of pulmonary surfactant corona in modulating carbon nanotube toxicity and benzo[a]pyrene bioaccessibility. Journal of Hazardous Materials, 457, 131753 (2023) 95. Ma, S.; Qi, X.; Han, K.; Wang, S.; Hu, G. & Li, X. Computational investigation of flow dynamics and mechanical retention of age-associated red blood cells in the spleen. Physical Review Fluids, 8, 063103 (2023) 94. Huang, C.; Shang, X.; Zhou, X.; Zhang, Z.; Huang, X.; Lu, Y.; Wang, M.; Loffler, M.; Liao, Z.; Qi, H.; Kaiser, U.; Schwarz, D.; Fery, A.; Wang, T.; Mannsfeld, S.; Hu, G.; Feng, X. & Dong, R. Hierarchical conductive metal-organic framework films enabling efficient interfacial mass transfer. Nature Communications, 14, 3850 (2023) 93. Xue, C.; Huang, Y.; Zheng, X. & Hu, G. Hopping behavior mediates the anomalous confined diffusion of nanoparticles in porous hydrogels. The Journal of Physical Chemistry Letters, 13, 10612-10620 (2022) 92. Liu, Y.; Zheng, X.; Guan, D.; Jiang, X. & Hu, G. Heterogeneous nanostructures cause anomalous diffusion in lipid monolayers. ACS Nano, 16, 16054-16066 (2022) 91. Bai, X.; Lam, S. M.; Nie, P.; Xu, M.; Liu, S.; Shui, G. & Hu, G. Lipidomic analysis probes lipid coronas on hydrophilic nanoparticles from natural lung surfactant. Environmental Science: Nano, 9, 4150-4161 (2022) 90. Shang, X.; Luo, Z.; Hu, G. & Bai, B. Role of surfactant-induced Marangoni effects in droplet dynamics on a solid surface in shear flow. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 654, 130142 (2022) 89. Zhou, Q.; Shang, X.; Chen, X.; Chen, Y. & Hu, G. Aerosol generation from tear film during non-contact tonometer measurement. Physics of Fluids, 34, 082114 (2022) 88. Luo, Z.; Bai, X.; Yue, T. & Hu, G. The aggregation of carbon nanotube deteriorates their adverse effects on pulmonary surfactant monolayer. Nano Today, 45, 101525 (2022) 87. Guo, Z.; Chen, X. & Hu, G. Numerical evaluation of hypothetical core disruptive accident in full-scale model of sodium-cooled fast reactor. Nuclear Engineering and Technology, 54, 2120-2134 (2022) 86. Ma, S.; Wang, S.; Qi, X.; Han, K.; Jin, X.; Li, Z.; Hu, G. & Li. X. Multiscale computational framework for predicting viscoelasticity of red blood cells in aging and mechanical fatigue. Computer Methods in Applied Mechanics and Engineering, 391, 114535 (2022) 85. Wang, D.; Guan, D.; Su, J.; Zheng, X. & Hu, G. Distinct dynamics of self-propelled bowl-shaped micromotors caused by shape effect: Concave vs. convex. Physics of Fluids, 33, 122004 (2021) 84. Zhu, Y.; Bai, X. & Hu, G. Interfacial behavior of phospholipid monolayers revealed by mesoscopic simulation. Biophysical Journal, 120, 4751-4762 (2021) 83. Liu, L.; Bai, X.; Martikainen, M.; Karlund, A.; Roponen, M.; Xu, W.; Hu, G.; Tasciotti, E. & Lehto, V. Cell membrane coating integrity affects the internalization mechanism of biomimetic nanoparticles. Nature Communications, 12, 5726 (2021) 82. Liu, X.; Zhang, Y.; Guo, Y.; Jiao, W.; Gao, X.; Lee, W.S.V.; Wang, Y.; Deng, X.; He, Y.; Jiao, J.; Zhang, C.; Hu, G.; Liang, X. & Fan, H. Electromagnetic field-programmed magnetic vortex nanodelivery system for efficacious cancer therapy. Advanced Science, 2100950 (2021) 81. Su, J.; Chen, X.; Zhu, Y. & Hu, G. Machine learning assisted fast prediction of inertial lift in microchannels. Lab on a Chip, 21, 2544-2556 (2021) 80. Wang, D.; Zheng, X.; Chen, X. & Hu, G. Flow-pattern-altered syntheses of core-shell and hole-shell microparticles in an axisymmetric microfluidic device. Acta Mechanica Sinica, 37, 1378-1386 (2021) 79. Zhang, F.; Jiang, X.; Chen, G.; He, Y., Hu, G. & Qiao, R. Electric-field-driven ion emission from the free surface of room temperature ionic liquids. Journal of Physical Chemistry Letters, 12, 711-716 (2021) 78. Chen, Y.; Ren, L.; Sun, L.; Bai, X.; Zhuang, G.; Cao, B.; Hu, G.; Zheng, N. & Liu, S. Amphiphilic silver nanoclusters show active nano-bio interaction with compelling antibacterial activity against multidrug-resistant bacteria. NPG Asia Materials, 12, 56 (2020) 77. Huang, C.; Guo, Z.; Zheng, X.; Chen, X.; Xue, Z.; Zhang, S.; Li, X.; Guan, B.; Li, X.; Hu, G. & Wang, T. Deformable metal-organic framework nanosheets for heterogeneous catalytic reactions. Journal of the American Chemical Society, 142, 9408-9414 (2020) 76. Xue, C.; Shi, X.; Tian, Y.; Zheng, X. & Hu, G. Diffusion of nanoparticles with activated hopping in crowded polymer solutions. Nano Letters, 20, 3895-3904 (2020) 75. Wu, H., Zhang, H., Hu, G. & Qiao, R. Deep learning-based reconstruction of the structure of heterogeneous composites from their temperature fields. AIP Advances, 10, 045037 (2020) 74. Xue, C.; Chen, X.; Li, Y.; Hu, G.; Cao, T. & Qin, K. Breakup dynamics of semi-dilute polymer solutions in a microfluidic focusing device. Micromachines, 11, 406 (2020) 73. Bai, X.; Li, M. & Hu, G. Nanoparticle translocation across the lung surfactant film regulated by grafting polymers. Nanoscale, 12, 3931-3940 (2020) 72. Li, Y.; Liu, C.; Bai, X.; Tian, F.; Hu, G. & Sun, J. Enantiomorphic microvortex-enabled supramolecular sensing of racemic amino acids using achiral building blocks. Angewandte Chemie International Edition, 59, 3486-3490 (2020)