陈皓生 - 清华大学 - 机械工程系

个人简介

教育背景 1998/09-2003/01, 清华大学，博士 1993/09-1998/07, 清华大学，学士工作履历 2021/06-至今，清华大学机械工程系，教授 2016/07-2021/06, 清华大学机械工程系，副教授 2009/01-2016/06, 清华大学精密仪器系，副研究员 2003/03-2008/12, 清华大学精密仪器系，助理研究员 2010/01-2011/01，哈佛大学，访问学者奖励与荣誉 2020年国家自然科学基金委杰出青年科学基金 2016年教育部自然科学一等奖 2015年中国机械工程学会摩擦学分会年度最佳论文奖 2013年国家自然科学基金委优秀青年科学基金 2012年教育部新世纪优秀人才 2010年教育部技术发明一等奖 2009年英国机械工程师学会年度最佳论文奖

研究领域

研究方向：微流体摩擦学微流体是尺寸在微米尺度的单相流体或是在单相流体中的分散介质，如细胞、微气泡、微乳液滴或是微颗粒等，微流体摩擦学是研究这些微流体在微通道和复杂界面条件下的摩擦、粘附和润滑等摩擦学行为，以及相关的微流场检测和微流控芯片技术。具体内容包括：微流动理论与界面减阻技术血液摩擦学与医疗器械表面设计微流场检测与微流控芯片技术

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Pan YF; Li Y; et al; Chen HS*; Fatigue of red blood cells under periodic squeezes in ECMO, PNAS, 2022, 119, No. 49 e2210819119. Pan, YF; Li, YJ; et al; Chen, HS*, Nanodroplet-coated microbubbles used in sonothrombolysis with two-step cavitation strategy, Advanced Healthcare Materials, 2022, pp.e2202281. (Cover Story) Zheng, XB; Pan, YF; et al; Chen, HS*, Interventional Microbubble Enhanced Sonothrombolysis on Left Ventricular Assist Devices, Advanced Science, 2022, 9 (21), 2201291. Li, J; Zhang, Y; et al; Chen, HS*, Binding properties of flowing fibrin-targeted microbubbles evaluated with a thrombus-embedded microchannel, Lab on a Chip, 2022, 22 (12) , pp.2292-2298 Zhou, CC; Liang, SS; et al; Chen, HS*, Microfluidic Assembly of Microblocks into Interlocked Structures for Enhanced Strength and Toughness, ACS Applied Materials & Interfaces, 2022, 14 (5) , pp.7261-7269. Chen, YY; Pan, YF; et al; Chen H.S*, Role of glucose in the repair of cell membrane damage during squeeze of erythrocytes in microfluidic capillaries, Lab on a Chip, 2021, 21 (5) , pp.896-903. Li, ZN; Li, GL; Li YJ; Chen H.S*, Flow field around bubbles on formation of air embolism in small vessels, PNAS, 2021,118 (26). Hu, XY; Li, YJ; et al; Chen H.S*, Effects of altered blood flow induced by the muscle pump on thrombosis in a microfluidic venous valve model, Lab on a Chip, 2020, 20 (14) , pp.2473-2481. Li DH; Li YJ; Li GL; Zhang Y; Li J; Chen H.S*, Fluorescent reconstitution on deposition of PM2.5 in lung and extrapulmonary organs, PNAS, 2019.2.12, 116(7): 2488~2493. Liang SS; Li J; Xu Q; Man J; Chen H.S*, Hydrodynamically Formed Uniform Thick Coatings on Microspheres , Small, 2018.06.7, 14 (23): 0~1800613 (Cover Story) Li ZN; Li J; Chen H.S*, Concentric ripples of lubrication film in electrowetting, Applied Physics Letters, 2018.12.1, 113(24) Chen H.S; Xu Q; Liang SS; Li J*, Film coating on a small sphere crossing an oil-water interface, Physical Review Fluids, 2018.12 .1, 3(12) Man J, Li Z, Li J, Chen H.S.,*. Phase inversion of slug flow on step surface to form high viscosity droplets in microchannel. Applied Physics Letters, 2017, 110(18):1487. Chen H.S., Man J, Li Z, et al. Microfluidic Generation of High-Viscosity Droplets by Surface-Controlled Breakup of Segment Flow. ACS Applied Materials & Interfaces, 2017, 9(25):21059. Yang G, Jiang L, Shum H C, Chen H.S.,*. Drag Reduction by Bubble-Covered Surfaces Found in PDMS Microchannel through Depressurization. Langmuir, 2016, 32(19). Chen H.S., Li Z, Li J. Thin-film profile around long bubbles in square microchannels measured by chromatic interference method. Applied Physics Letters, 2016, 109(4):381. Chen H.S., Gao Y, Stone H A, et al. “Fluid bearing” effect of enclosed liquids in grooves on drag reduction in microchannels. Phys.Rev.Fluids, 2016, 1(8). Chen H.S., Meng Q, Li J. Thin lubrication film around moving bubbles measured in square microchannels. Applied Physics Letters, 2015, 107(14):82. Li J, Wang Y, Chen H.S.,*, et al. Electrowetting-on-dielectrics for manipulation of oil drops and gas bubbles in aqueous-shell compound drops. Lab on a Chip, 2014, 14(22):4334. Chen H.S., Jiang Li, Weizheng Zhou. Sonication–Microfluidics for Fabrication of Nanoparticle-Stabilized Microbubbles. Langmuir, 2014, 30(15):4262-4266. Li J, Chen H.S.*, Zhou W, et al. Growth of bubbles on a solid surface in response to a pressure reduction. Langmuir, 2014, 30(15):4223-4228. Li J, Wang Y, Dong E, Chen H.S.,*. USB-driven microfluidic chips on printed circuit boards. Lab on a Chip, 2014, 14(5):860-864. Zhang L., Hao S., Liu B., Shum H.C., Li J., Chen HS *, Fabrication Ceramic Microspheres by Diffusion- Induced Sol-Gel Reaction in Double Emulsions, ACS Applied Mater. Interf., 2013, 5 (22), pp 11489–11493, (Cover Story) Chen HS, Dong E., Li J.*, Stone H., Adhesion of moving droplets in microchannels, Applied Physics Letters, 2013, 103: 131605 Li J., Chen HS, Stone H.A.*, Ice Lubrication for moving heavy stones to the Forbidden City in 15th - 16th century China, PNAS, 2013, 110: 20023 (Cover Story) Chen HS, Li J., D.A. Weitz, H.A. Stone, et al, Gas-core triple emulsions for ultrasound triggered release, Soft Matter, 2013, 9(1), 38-42. (Cover Story) Chen H.S., Li J., Wan J.D, Guo M., D.A. Weitz, H.A. Stone, Reactions in double emulsions by flow-controlled coalescence of inner drops, Lab on a Chip, 2011, 11(14) Chen H.S., Li J., H.C. Shum, H.A. Stone, D.A. Weitz, Breakup of double emulsions in constrictions, Soft Matter, 2011, 7(6) Li J., Chen H.S.*, H.A. Stone, Breakup of Double Emulsion Droplets in a Tapered Nozzle, Langmuir, 2011, 27 (8)